4116T-2-2222FBB [BOURNS]
Resistor Networks Product Selection Guide; 电阻器网络产品选型指南型号: | 4116T-2-2222FBB |
厂家: | BOURNS ELECTRONIC SOLUTIONS |
描述: | Resistor Networks Product Selection Guide |
文件: | 总62页 (文件大小:1878K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
w w w . b o u r n s
. c o m
Resistor Networks
I.
Product Selection Guide...........................................................278
II. Popular Resistance Codes........................................................284
III. Thick Film Products
Through-hole Packages
Molded DIPs...................................................................286
Molded SIPs...................................................................288
Conformal SIPs ..............................................................294
Surface Mount Packages
For a complete listing of thick film products
in stock and readily available through distri-
bution, see page 284.
Wide Body......................................................................300
Medium Body.................................................................302
Ordering Guide...............................................................304
RC Networks
T-Filters (EMI/RFI Low-Pass Filters)...............................305
RC Terminators ..............................................................307
ECL Terminators .............................................................309
Capacitor Networks ........................................................312
IV. Precision Thin-Film-on-Ceramic Products
Through-hole Packages ......................................................313
Surface Mount Packages ....................................................318
VI. Designer’s Guide and Application Notes
EMI/RFI Filters................................................................320
RC Terminator Networks ................................................322
Emitter Coupled Logic Terminators ................................324
Dual Terminator Resistor Networks................................326
SCSI ...............................................................................327
R/2R Ladder Networks ...................................................330
DRAM Applications ........................................................331
Thin Film Applications ....................................................334
Soldering and Cleaning Processes .................................336
Specifications are subject to change without notice.
277
Resistor Networks Product Selection Guide
Thick Film, Molded DIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
Molded DIP
Low Profile
8
4108R-1-RC
4114R-1-RC
4116R-1-RC
4118R-1-RC
4120R-1-RC
4108R-2-RC
4114R-2-RC
4116R-2-RC
4118R-2-RC
4120R-2-RC
4108R-3-RC/RC
4114R-3-RC/RC
4116R-3-RC/RC
4118R-3-RC/RC
4120R-3-RC/RC
27.05
MAX.
(1.065)
24.51
MAX.
(.965)
14
16
18
20
21.97
MAX.
(.865)
19.43
MAX.
(.765)
4100R
286
11.81
(.465)
MAX.
4.70 (.185)
Seated Height
Thick Film, Molded SIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
Molded SIP
Low Profile
6
8
4306R-102-RC
4308R-102-RC
4306R-101-RC
4308R-101-RC
4309R-101-RC
4310R-101-RC
4311R-101-RC
4306R-104-RC/RC
4308R-104-RC/RC
4309R-104-RC/RC
4310R-104-RC/RC
4311R-104-RC/RC
27.53
MAX.
(1.084)
24.99
MAX.
(.984)
22.45
MAX.
(.884)
19.92
MAX.
(.784)
14.83
4300R
9
288
(.584)
MAX.
10
11
4310R-102-RC
4.96 (.195)
Seated Height
Molded SIP
Medium Profile
4
6
4304M-102-RC
4306M-102-RC
4308M-102-RC
4310M-102-RC
4304M-101-RC
4306M-101-RC
4308M-101-RC
4310M-101-RC
4304M-104-RC/RC
4306M-104-RC/RC
4308M-104-RC/RC
4310M-104-RC/RC
24.99
MAX.
(.984)
19.91
MAX.
(.784)
14.83
(.584)
MAX.
9.75
(.384)
MAX.
4300M
290
8
6.35 (.250)
Seated Height
10
Specifications are subject to change without notice.
278
Resistor Networks Product Selection Guide
Thick Film, Molded SIPs (continued)
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
Molded SIP
High Profile
4
4304H-102-RC
4306H-102-RC
4308H-102-RC
4310H-102-RC
4304H-101-RC
4306H-101-RC
4308H-101-RC
4310H-101-RC
4304H-104-RC/RC
4306H-104-RC/RC
4308H-104-RC/RC
4310H-104-RC/RC
24.99
MAX.
(.984)
19.91
MAX.
(.784)
6
14.83
(.584)
MAX.
9.75
(.384)
MAX.
4300H
292
8
8.89 (.350)
Seated Height
10
Thick Film, Conformal SIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
Conformal SIP
Low Profile
4
5
4604X-102-RC
4606X-102-RC
4608X-102-RC
4610X-102-RC
4612X-102-RC
4614X-102-RC
4604X-101-RC
4605X-101-RC
4606X-101-RC
4607X-101-RC
4608X-101-RC
4609X-101-RC
4610X-101-RC
4611X-101-RC
4612X-101-RC
4613X-101-RC
4614X-101-RC
4604X-104-RC/RC
4605X-104-RC/RC
4606X-104-RC/RC
4607X-104-RC/RC
4608X-104-RC/RC
4609X-104-RC/RC
4610X-104-RC/RC
4611X-104-RC/RC
4612X-104-RC/RC
4613X-104-RC/RC
4614X-104-RC/RC
5.08
(.200)
MAX.
A
MAXIMUM
6
7
8
5.08 (.200) Seated Height
Pin
Count
A Maximum
mm (Inches)
9
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
38.05 (1.498)
40.59 (1.598)
4600X
10
11
12
13
14
294
6
7
8
9
10
11
12
13
14
15
16
Industrial Grade
Specifications are subject to change without notice.
279
Resistor Networks Product Selection Guide
Thick Film, Conformal SIPs (continued)
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
Conformal SIP
Medium Profile
4
5
4604M-102-RC
4606M-102-RC
4608M-102-RC
4610M-102-RC
4612M-102-RC
4604M-101-RC
4605M-101-RC
4606M-101-RC
4607M-101-RC
4608M-101-RC
4609M-101-RC
4610M-101-RC
4611M-101-RC
4612M-101-RC
4613M-101-RC
4614M-101-RC
4604H-101-RC
4605H-101-RC
4606H-101-RC
4607H-101-RC
4608H-101-RC
4609H-101-RC
4610H-101-RC
4611H-101-RC
4612H-101-RC
4613H-101-RC
4614H-101-RC
4604M-104-RC/RC
4605M-104-RC/RC
4606M-104-RC/RC
4607M-104-RC/RC
4608M-104-RC/RC
4609M-104-RC/RC
4610M-104-RC/RC
4611M-104-RC/RC
4612M-104-RC/RC
4613M-104-RC/RC
4615M-104-RC/RC
4604H-104-RC/RC
4605H-104-RC/RC
4606H-104-RC/RC
4607H-104-RC/RC
4608H-104-RC/RC
4609H-104-RC/RC
4610H-104-RC/RC
4611H-104-RC/RC
4612H-104-RC/RC
4613H-104-RC/RC
4614H-104-RC/RC
6.35
(.250)
MAX.
A
MAXIMUM
6
7
8
6.35 (.250) Seated Height
Pin
Count
A Maximum
mm (Inches)
9
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
38.05 (1.498)
40.59 (1.598)
4600M
10
11
12
13
14
4
298
6
7
8
9
10
11
12
13
14
15
16
Industrial Grade
4614M-102-RC
4604H-102-RC
Conformal SIP
High Profile
5
8.89
(.350)
MAX.
A
MAXIMUM
6
4606H-102-RC
4608H-102-RC
4610H-102-RC
4612H-102-RC
4614H-102-RC
7
8
8.89 (.350) Seated Height
9
Pin
Count
A Maximum
mm (Inches)
4600H
10
11
12
13
14
296
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
38.05 (1.498)
40.59 (1.598)
6
7
8
9
10
11
12
13
14
15
16
Industrial Grade
Thick Film, Surface Mount Packages
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
SOL SMD 7.49mm Wide Body
with Gull Wing Lead Form
16
20
4416P-1-RC
4416P-4-RC
4416P-2-RC
4420P-2-RC
4416P-3-RC/RC
4420P-3-RC/RC
7.493 ± .076
(.295 ± .003)
4400P
300
4420P-1-RC
4420P-4-RC
10.34 ± .25
(.407 ± .010)
Specifications are subject to change without notice.
280
Resistor Networks Product Selection Guide
Thick Film, Surface Mount Packages (continued)
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Dual
Terminators
Page
No.
SOM SMD 5.59mm
Medium Body
with Gull Wing Lead Form
14
16
4814P-1-RC
4814P-2-RC
4816P-2-RC
4814P-3-RC/RC
4816P-3-RC/RC
4816P-1-RC
4816P-4-RC
5.59 ± .12
(.220 ± .005)
4800P
302
18
20
4818P-1-RC
4818P-2-RC
4820P-2-RC
4818P-3-RC/RC
4820P-3-RC/RC
7.62 ± .25
(.300 ± .010)
4820P-1-RC
4820P-4-RC
RC Networks Standard Circuits (Custom Circuits Available)
Package
Type
Series
Number
Pin
Ct.
Capacitor
Types
Capacitor
Range
Circuit
Type
Page
No.
Molded DIP
Low Profile
4100R-601
18,20
Z5U
50pf - 200pf
T-Filter
305
.635
(.025)
PIN #1 REF.
SOGN SMD 7.49mm
Wide Body, Gull Wing
7.493 ± .076
(.295 ± .003)
4400P-601
20
Z5U
50pf-200pf
T-Filter
305
.432 ± .056
(.017 ± .002)
TYP.
10.34 ± .25
(.407 ± .010)
Specifications are subject to change without notice.
281
Resistor Networks Product Selection Guide
RC Networks Standard Circuits (Custom Circuits Available) (Continued)
Package
Type
Series
Number
Pin
Ct.
Capacitor
Types
Capacitor
Range
Circuit
Type
Page
No.
Conformal SIP
High Profile
8.89
(.350)
MAX.
A
MAXIMUM
4600H-700
4600M-800
4600M-900
4-14
4-14
4-14
NPO, X7R
39pf-100Kpf
39pf-100Kpf
39pf-100Kpf
RC Terminator
ECL Terminator
Isolated/Bussed
307
309
312
Conformal SIP
Medium Profile
6.35
(.250)
MAX.
A
MAXIMUM
X7R
Conformal SIP
Medium Profile
6.35
(.250)
MAX.
A
MAXIMUM
NPO, X7R
Thin Film, Molded DIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Series
Circuit
Page
No.
Molded DIP
8
4108T-1-XXXX XX
4114T-1-XXXX XX
4116T-1-XXXX XX
4118T-1-XXXX XX
4120T-1-XXXX XX
4.57 + .12/ - .28
(.180 + .005/ - .011)
14
16
18
20
4114T-2-XXXX XX
4116T-2-XXXX XX
4118T-2-XXXX XX
4120T-2-XXXX XX
11.81
(.465)
MAX.
4100T
313
Thin Film, Molded SIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Series
Circuit
Page
No.
Molded SIP Low Profile
(also available in medium
and high profile)
6
8
4306T-102-XXXX XX
4308T-102-XXXX XX
4306T-101-XXXX XX
4308T-101-XXXX XX
4309T-101-XXXX XX
4310T-101-XXXX XX
4311T-101-XXXX XX
4306T-106-XXXX XX
4308T-106-XXXX XX
4309T-106-XXXX XX
4310T-106-XXXX XX
4311T-106-XXXX XX
4.95
14.83
(.584)
MAX.
(.195)
MAX.
4300T,S,K
9
314
10
11
4310T-102-XXXX XX
Specifications are subject to change without notice.
282
Resistor Networks Product Selection Guide
Thin Film, Conformal SIPs
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Series
Circuit
Page
No.
Conformal SIP Low Profile
(also available in medium
and high profile)
4
5
6
7
8
9
4604T-102-XXXX XX
4606T-102-XXXX XX
4608T-102-XXXX XX
4610T-102-XXXX XX
4612T-102-XXXX XX
4614T-102-XXXX XX
4616T-102-XXXX XX
4604T-101-XXXX XX
4605T-101-XXXX XX
4606T-101-XXXX XX
4607T-101-XXXX XX
4608T-101-XXXX XX
4609T-101-XXXX XX
4610T-101-XXXX XX
4611T-101-XXXX XX
4612T-101-XXXX XX
4613T-101-XXXX XX
4614T-101-XXXX XX
4615T-101-XXXX XX
4616T-101-XXXX XX
4604T-106-XXXX XX
4605T-106-XXXX XX
4606T-106-XXXX XX
4607T-106-XXXX XX
4608T-106-XXXX XX
4609T-106-XXXX XX
4610T-106-XXXX XX
4611T-106-XXXX XX
4612T-106-XXXX XX
4613T-106-XXXX XX
4614T-106-XXXX XX
4615T-106-XXXX XX
4616T-106-XXXX XX
5.08
(.200)
MAX.
A
MAXIMUM
Pin
Count
A Maximum
mm (Inches)
4600T,S,K 10
316
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
38.05 (1.498)
40.59 (1.598)
11
12
13
14
15
16
6
7
8
9
10
11
12
13
14
15
16
Thin Film, Surface Mount Packages
Package
Type
Series
Number
Pin
Ct.
Isolated
Resistors
Bussed
Resistors
Series
Circuit
Page
No.
SOL SMD
Wide Body Gull Wing
16
20
4416T-1-XXXX XX
4420T-1-XXXX XX
4416T-2-XXXX XX
4420T-2-XXXX XX
7.493 ± .076
(.295 ± .003)
4400T
318
10.34 ± .25
(.407 ± .010)
SOM SMD
Medium Body Gull Wing
14
16
18
20
4814T-1-XXXX XX
4816T-1-XXXX XX
4818T-1-XXXX XX
4820T-1-XXXX XX
4814T-2-XXXX XX
4816T-2-XXXX XX
4818T-2-XXXX XX
4820T-2-XXXX XX
5.59 ± .12
(.220 ± .005)
4800T
319
7.62 ± .25
(.300 ± .010)
Specifications are subject to change without notice.
283
Resistor Networks Popular Resistance Codes
Part Number
Resistance Codes
102 221 331 472
103 271
151
Part Number
Resistance Codes
4114R-1-
4416P-1-
4416P-2-
470
103
4416P-T01-
4416P-T02-
470
102
472
470
472
4114R-2-
102
103
104
472
1034420P-1-
470
4420P-002- 103
4420P-T01- 102
4420P-T02- 103
4114R-3-
4116R-1-
221/331
101 202 330 470 560 681
102 220 331 471
103 221 332 472
104 222 391 473
105 223
121 224
122 270
151 271
4606X-101- 102 222 331 471
103 223
104 272
472
473
4606X-102 102
103
473
152
4608X-101- 102 222 331 472 561
103
104
332 473
4116R-2-
102 222
103
472 562
104
4608X-102- 101 202 330 470 560 681 822
102 220 331 471
103 221 333 472
104 222 390 473
105 223
121 224
152 271
824
4116R-3-
221/331
4306R-101-
101 222
102 271
103
472
104
4306R-102-
4308R-101-
103
4608X-104-
221/331
331/471
101 222
102
103
104
151
470
471
472
473
4610X-101- 101 203 331 471 561 202
102 221 332 472 562 333
103 222 392 473
681
122
104 223
105 224
151 271
152 272
474
4308R-102-
101 220 330 470
102 221 331 471
103 223 390 472
104 271 391
121
680 820
4610X-102- 101 220 330 470 560
102
103
104
105
151
472
473
4308R-104-
4310R-101-
221/331
331/471
101 203 331 471 562
102 221 332 472
103 222 333 473
104 223 391
121
4610X-104-
221/331
331/471
151
4310R-102-
4310R-104-
101 220 330 470
102 270
103
471
472
104
152
221/331
331/471
Specifications are subject to change without notice.
284
Resistor Networks Popular Resistance Codes
Part Number
Resistance Codes
4814P-1-
4814P-2-
220
103 203 331 472
4814P-T01- 103 220
4814P-T02- 103 203 331 472
4816P-1-
101 220 330 470 560 680 820
102 222 331 472
103 223
104 271
152
4816P-2-
101 222
102
472
473
103
4816P-T01- 101 220 330 470 560 680 820
102 222 331 472
103 223
104 271
152
4816P-T02- 101 222
472
473
102
103
Specifications are subject to change without notice.
285
Features
■ Compatible with automatic insertion
equipment
■ Superior package integrity
■ Marking on contrasting background for
permanent identification
4100R Series - Thick Film Molded DIPs
Product Characteristics
Package Power Temp. Derating Curve
DERATING CURVE
Product Dimensions
Resistance Range
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
Resistor Tolerance ................See circuits
Operating Temperature
...................................-55°C to +125°C
Insulation Resistance
4.00
3.50
PIN #1 REF.
27.05
MAX.
(1.065)
3.00
4120R
24.51
MAX.
(.965)
4118R
2.50
21.97
MAX.
(.865)
4116R
4114R
2.00
19.43
MAX.
4.57 + .12/ - .28
(.180 + .005/ - .007)
(.765)
11.81
4108R
MAX.
(.465)
1.50
..................10,000 megohms minimum
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
.....Meet requirements of MIL-STD-202
Method 208
.89 ± .25
(.035 ± .010)
1.00
.50
8.40
MAX.
(.331)
TYP.
2.03 ± .12
(.080 ± .005)
2.54 ± .25
(.100 ± .010*)
TYP.
NON-ACCUM.
3.43 + .38/ - .25.
(135 + .015/ - .010)
0
25
70
AMBIENT TEMPERATURE ( C )
125
1.65 + .12/ - .07
(.065 + .005/ - .003)
°
.438 ± .050
TYP.
(.019 ± .002)
Environmental Characteristics
Package Power Rating at 70°C
7.87 ± .25
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat
.................................................±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
4108R......................................1.69 watts
4114R......................................2.00 watts
4116R......................................2.25 watts
4118R......................................2.50 watts
4120R......................................2.80 watts
(.310 ± .010)
TO OUTSIDE
WHEN PINS
6.71 ± .10
(.260 + .005)
(.260 - .000)
ARE PARALLEL
.254 ± .050
(.010 ± .002)
8.64 ± .50
(.340 ± .020)
Typical Part Marking
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Represents total content. Layout may vary.
Physical Characteristics
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
CIRCUIT
PART
Flammability .........Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
NUMBER
RESISTANCE
4114R-1-
152
YYWW
CODE
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
How To Order
41 14 R - 1 - 152
Model
(41 = Molded DIP)
Number of Pins
Physical Configuration
(R = Thick Film Low Profile)
Electrical Configuration
• 1 = Isolated
• 2 = Bussed
• 3 = Dual Terminator
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
Consult factory for other available options.
Specifications are subject to change without notice.
286
4100R Series - Thick Film Molded DIPs
Isolated Resistors (1 Circuit)
Bussed Resistors (2 Circuit)
Dual Terminator (3 Circuit)
Model 4108R-1-RC
(4 Isolated Resistors)
Model 4108R-2-RC
(7 Resistors, Pin 8 Common)
Model 4108R-3-R1/R2
Model 4114R-3-R1/R2
Model 4116R-3-R1/R2 (shown)
Model 4118R-3-R1/R2
Model 4120R-3-R1/R2
Model 4114R-1-RC
(7 Isolated Resistors)
Model 4114R-2-RC
(13 Resistors, Pin 14 Common)
Model 4116R-1-RC
Model 4116R-2-RC
(8 Isolated Resistors)
(15 Resistors, Pin 16 Common)
16
9
Model 4118R-1-RC
(9 Isolated Resistors)
Model 4118R-2-RC
(17 Resistors, Pin 18 Common)
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
Model 4120R-1-RC
(10 Isolated Resistors)
Model 4120R-2-RC
(19 Resistors, Pin 20 Common)
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R1
16
9
14
8
R2
R2
R2
R
R
R
R
R
R
R
R
R
R
R
R
R
R
1
8
R
R
R
R
R
R
R
R
1
7
1
8
Resistance Tolerance
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms .................±2% *
Above 5 megohms ..........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Below 100 ohms ........................±2 ohms
100 ohms to 5 megohms................±2% *
Above 5 megohms ...........................±5%
Power Rating per Resistor
Power Rating per Resistor
Power Rating per Resistor
At 70°C ..................................0.250 watt
At 70°C ..................................0.125 watt
At 70°C ..................................0.125 watt
Power Temperature Derating Curve
Power Temperature Derating Curve
Power Temperature Derating Curve
.350
.250
.150
.050
.350
.250
.150
.050
.350
.250
.150
.050
0
25
70
125
0
25
70
125
0
25
70
125
°
AMBIENT TEMPERATURE ( ° C )
AMBIENT TEMPERATURE ( C )
°
AMBIENT TEMPERATURE ( C )
Popular Resistance Values (1, 2 Circuits)**
Popular Resistance Values (3 Circuit)**
Resistance
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
(Ohms)
Code
R1
R2
R1
R2
27
270
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
33
330
39
390
220
47
470
220
56
560
330
68
680
330
82
820
3,000
6,200
100
120
150
1,000
1,200
1,500
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
287
■ Top marking standard
Features
■ Low profile provides compatibility with
DIPs
■ Compatible with automatic insertion
equipment
■ Superior package integrity
■ Marking on contrasting background for
permanent identification
4300R Series - Thick Film Molded SIPs
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range
27.53
MAX.
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
Resistor Tolerance ................See circuits
Operating Temperature
...................................-55°C to +125°C
Power Rating ....................Derate to zero
power from + 70°C to + 125°C
Insulation Resistance
(1.084)
24.99
3.50
3.00
2.50
2.00
MAX.
(.984)
19.92
22.45
(.884)
MAX.
MAX.
4.95
(.195)
MAX.
MAX.
(.784)
14.83
(.584)
PIN #1 REF.
.407 + .102/ - .000
(.016 + .004/ - 000)
3.43 + .38/ - .25
(.135 + .015/ - .010)
1.02 ± .12
(.040 ± .005)
.483 ± .050
(.020 ± .002)
1.50
4311R
4310R
4309R
4308R
1.00
TYP.
4306R
2.54 ± .07
.50
(.100 ± .003*)
TYP.
NON-ACCUM.
..................10,000 megohms minimum
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
0
25
70
AMBIENT TEMPERATURE ( C )
125
°
2.16 ± .10
(.085 ± .004)
.....Meet requirements of MIL-STD-202
Method 208
Package Power Rating at 70°C
4306R......................................0.75 watts
4308R......................................1.00 watts
4309R......................................1.13 watts
4310R......................................1.25 watts
4311R......................................1.38 watts
1.02 ± .05
(.0425 ± .002)
Environmental Characteristics
.254 ± .050
(.010 ± .002)
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat
.................................................±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Typical Part Marking
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Represents total content. Layout may vary.
CIRCUIT
PART
NUMBER
RESISTANCE
CODE
4306R-101-
222
YYWW
Physical Characteristics
DATE CODE
PIN ONE
INDICATOR
Flammability .........Conforms to UL94V-0
Lead Frame Material
MANUFACTURER'S
TRADEMARK
..........................Copper, solder coated
Body Material ..................Novolac epoxy
How To Order
43 06 R - 101 - 222
Model
(43 = Molded SIP)
Number of Pins
Physical Configuration
(R = Thick Film Low Profile)
Electrical Configuration
• 101 = Bussed
• 102 = Isolated
• 104 = Dual Terminator
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
Consult factory for other available options.
Specifications are subject to change without notice.
288
4300R Series - Thick Film Molded SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4306R-102-RC (6 Pin)
Model 4308R-102-RC (8 Pin)
Model 4310R-102-RC (10 Pin)
Model 4306R-101-RC (6 Pin)
Model 4308R-101-RC (8 Pin)
Model 4309R-101-RC (9 Pin)
Model 4310R-101-RC (10 Pin)
Model 4311R-101-RC (11 Pin)
Model 4306R-104-R1/R2
Model 4308R-104-R1/R2 (shown)
Model 4309R-104-R1/R2
Model 4310R-104-R1/R2
Model 4311R-104-R1/R2
4311
4310
4310
R2
R2
R2
R2
R2
R2
4309
4308
4306
4308
4306
R1
R1
R1
R1
R1
R1
1
6
8
10
1
6
8
9
10
11
1
8
These models incorporate 5, 7, 8, 9 or
10 thick-film resistors of equal value,
each connected between a separate
pin.
4308R-104 (shown above) is an 8-pin
configuration and terminates 6 lines.
Pins 1 and 8 are common for ground
and power, respectively. Twelve
thick-film resistors are paired in series
between the common lines (pins 1
and 8).
These models incorporate 3, 4 or 5
isolated thick-film resistors of equal
value, each connected between two
pins.
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Resistance Tolerance
Below 100 ohms ........................±2 ohms
100 ohms to 5 megohms................±2% *
Above 5 megohms ...........................±5%
Power Rating per Resistor
Power Rating per Resistor
At 70°C ....................................0.20 watt
At 70°C ....................................0.30 watt
Power Rating per Resistor
Power Temperature Derating Curve
Power Temperature Derating Curve
At 70°C ....................................0.20 watt
.50
.40
.30
.20
.10
.50
.40
.30
.20
.10
Power Temperature Derating Curve
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
°
AMBIENT TEMPERATURE ( °C )
AMBIENT TEMPERATURE ( C )
0
25
70
125
°
AMBIENT TEMPERATURE ( C )
Popular Resistance Values (101, 102 Circuits)**
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Popular Resistance Values (104 Circuit)**
Resistance
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
27
270
(Ohms)
Code
33
330
R1
R2
R1
R2
39
390
47
470
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
56
560
68
680
220
82
820
220
100
120
150
1,000
1,200
1,500
330
330
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
289
■ Top marking standard
Features
■ Medium profile offers increased power
handling
■ Compatible with automatic insertion
equipment
■ Superior package integrity
■ Marking on contrasting background for
permanent identification
4300M Series - Thick Film Molded SIPs
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range
24.99
(.984)
MAX.
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
19.91
(.784)
14.83
MAX.
(.584)
9.75
MAX.
3.50
3.00
2.50
2.00
6.35
(.250)
MAX.
MAX.
(.384)
PIN #1 REF.
Resistor Tolerance ................See circuits
Operating Temperature
...................................-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
.....Meet requirements of MIL-STD-202
Method 208
3.43 + .38/ - .25
(.135 + .015/ - .010)
1.02 ± .12
4310M
1.50
.407 + .102/ - .000
(.016 + .004/ - 000)
4308M
4306M
1.00
(.040 ± .005)
.483 ± .050
(.020 ± .002)
TYP.
4304M
.50
2.54 ± .07
(.100 ± .003*)
TYP.
NON-ACCUM.
0
25
70
AMBIENT TEMPERATURE ( C )
125
2.16 ± .10
(.085 ± .004)
°
1.02 ± .05
(.0425 ± .002)
Environmental Characteristics
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat
.................................................±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
.254 ± .050
(.010 ± .002)
Package Power Rating at 70°C
4304M.....................................0.60 watts
4306M.....................................0.90 watts
4308M.....................................1.20 watts
4310M.....................................1.50 watts
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Typical Part Marking
Physical Characteristics
Represents total content. Layout may vary.
Flammability .........Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
CIRCUIT
PART
NUMBER
RESISTANCE
CODE
4306M-101-
222
YYWW
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
How To Order
43 06 M - 101 - 222
Model
(43 = Molded SIP)
Number of Pins
Physical Configuration
(M = Thick Film Medium Profile)
Electrical Configuration
• 101 = Bussed
• 102 = Isolated
• 104 = Dual Terminator
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
Consult factory for other available options.
Specifications are subject to change without notice.
290
4300M Series - Thick Film Molded SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4304M-102-RC (4 Pin)
Model 4306M-102-RC (6 Pin)
Model 4308M-102-RC (8 Pin)
Model 4310M-102-RC (10 Pin)
Model 4304M-101-RC (4 Pin)
Model 4306M-101-RC (6 Pin)
Model 4308M-101-RC (8 Pin)
Model 4310M-101-RC (10 Pin)
Model 4304M-104-R1/R2
Model 4306M-104-R1/R2
Model 4308M-104-R1/R2 (shown)
Model 4310M-104-R1/R2
4310
4310
4308
4308
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
4306
4304
4306
4304
1
4
6
8
10
1
4
6
8
10
1
8
These models incorporate 2, 3, 4, or 5
isolated thick-film resistors of equal
value, each connected between two
pins.
These models incorporate 3, 5, 7, or 9
4308M-104 (shown above) is an 8-pin
configuration and terminates 6 lines.
Pins 1 and 8 are common for ground
and power, respectively. Twelve thick-
film resistors are paired in series
between the common lines (pins 1 and
8).
thick-film resistors of equal value, each
connected between a common bus (pin
1) and a separate pin.
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Resistance Tolerance
Below 100 ohms ........................±2 ohms
100 ohms to 5 megohms................±2% *
Above 5 megohms ...........................±5%
Power Rating per Resistor
Power Rating per Resistor
At 70°C ....................................0.40 watt
At 70°C ....................................0.25 watt
Power Rating per Resistor
Power Temperature Derating Curve
Power Temperature Derating Curve
At 70°C ....................................0.25 watt
.60
.60
Power Temperature Derating Curve
.50
.40
.30
.20
.10
.50
.40
.30
.20
.10
.60
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
AMBIENT TEMPERATURE ( °C )
AMBIENT TEMPERATURE ( °C )
0
25
70
125
Popular Resistance Values (101, 102 Circuits)**
AMBIENT TEMPERATURE ( °C )
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Popular Resistance Values (104 Circuit)**
Resistance
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
27
270
(Ohms)
Code
33
330
39
390
R1
R2
R1
R2
47
470
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
56
560
68
680
220
82
820
220
100
120
150
1,000
1,200
1,500
330
330
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
291
■ Top marking standard
Features
■ High profile offers increased power
handling
■ Compatible with automatic insertion
equipment
■ Superior package integrity
■ Marking on contrasting background for
permanent identification
4300H Series - Thick Film Molded SIPs
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range
24.99
(.984)
MAX.
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
19.91
(.784)
MAX.
3.50
3.00
2.50
14.83
MAX.
(.584)
8.89
(.350)
MAX.
9.75
(.384)
MAX.
PIN #1 REF.
4310H
2.00
Resistor Tolerance ................See circuits
Operating Temperature
...................................-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
.....Meet requirements of MIL-STD-202
Method 208
4308H
1.50
3.43 + .38/ - .25
(.125 + .005/ - .010)
1.02 ± .12
.407 + .102/ - .000
(.016 + .004/ - 000)
4306H
1.00
4304H
(.040 ± .005)
.483 ± .050
(.020 ± .002)
TYP.
.50
2.54 ± .07
(.100 ± .003*)
TYP.
NON-ACCUM.
0
25
70
AMBIENT TEMPERATURE ( C )
125
°
2.16 ± .10
(.085 ± .004)
Environmental Characteristics
1.02 ± .05
(.0425 ± .002)
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat
.................................................±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
Package Power Rating at 70°C
.254 ± .050
(.010 ± .002)
4304H .....................................0.80 watts
4306H .....................................1.20 watts
4308H .....................................1.60 watts
4310H .....................................2.00 watts
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Typical Part Marking
Represents total content. Layout may vary.
Physical Characteristics
CIRCUIT
PART
Flammability .........Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
NUMBER
RESISTANCE
CODE
4306H-101-
222
YYWW
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
How To Order
43 06 H - 101 - 222
Model
(43 = Molded SIP)
Number of Pins
Physical Configuration
(H = Thick Film High Profile)
Electrical Configuration
• 101 = Bussed
• 102 = Isolated
• 104 = Dual Terminator
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
Consult factory for other available options.
Specifications are subject to change without notice.
292
4300H Series - Thick Film Molded SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4304H-102-RC (4 Pin)
Model 4306H-102-RC (6 Pin)
Model 4308H-102-RC (8 Pin)
Model 4310H-102-RC (10 Pin)
Model 4304H-101-RC (4 Pin)
Model 4306H-101-RC (6 Pin)
Model 4308H-101-RC (8 Pin)
Model 4310H-101-RC (10 Pin)
Model 4304H-104-R1/R2
Model 4306H-104-R1/R2
Model 4308H-104-R1/R2 (shown)
Model 4310H-104-R1/R2
4310
4310
4308
4308
R2
R2
R2
R2
R2
R2
4306
4304
4306
4304
R1
R1
R1
R1
R1
R1
1
4
6
8
10
1
4
6
8
10
1
8
These models incorporate 2, 3, 4, or 5
isolated thick-film resistors of equal
value, each connected between two
pins.
These models incorporate 3, 5, 7, or 9
thick-film resistors of equal value, each
connected between a common bus (pin
1) and a separate pin.
4308H-104 (shown above) is an 8-pin
configuration and terminates 6 lines.
Pins 1 and 8 are common for ground
and power, respectively. Twelve thick-
film resistors are paired in series
between the common lines (pins 1 and
8).
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Resistance Tolerance
Below 100 ohms ........................±2 ohms
100 ohms to 5 megohms................±2% *
Above 5 megohms ...........................±5%
Power Rating Per Resistor
At 70°C ....................................0.50 watt
Power Rating Per Resistor
At 70°C ....................................0.30 watt
Power Rating Per Resistor
Power Temperature Derating Curve
At 70°C ....................................0.30 watt
Power Temperature Derating Curve
.70
.60
.50
.40
.30
.20
.10
.70
Power Temperature Derating Curve
.60
.50
.40
.30
.20
.10
.70
.60
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
AMBIENT TEMPERATURE ( °C )
AMBIENT TEMPERATURE ( °C )
0
25
70
125
Popular Resistance Values (101, 102 Circuits)**
AMBIENT TEMPERATURE ( °C )
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
Popular Resistance Values (104 Circuit)**
Resistance
27
270
33
330
(Ohms)
Code
39
390
47
470
R1
R2
R1
R2
56
560
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
68
680
82
820
220
100
120
150
1,000
1,200
1,500
220
330
330
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
293
■ Marking on contrasting background for
permanent identification
Features
■ Low profile is compatible with DIPs
■ Wide assortment of pin packages
enhances design flexibility
■ Ammo-pak packaging available
■ Recommended for rosin flux and solvent
clean or no clean flux processes
4600X Series - Thick Film Conformal SIPs
Product Characteristics
Product Dimensions
Package Power Temp. Derating Curve
Resistance Range
5.08
(.200)
MAX.
A
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
Resistor Tolerance ................See circuits
Insulation Resistance
..................10,000 megohms minimum
Dielectric Withstanding Voltage
MAXIMUM
3.50
3.00
2.50
PIN #1
REF.
MAX. 1.24
3.43 +.38/ -.508
(.135 +.015/ -.020)
BOTH ENDS (.049)
.508 ± .050
(.020 ± .002)
TYP.
2.00
4614X
2.54 ± .07
4612X
1.50
(.100 ± .003*)
TYP.
NON-ACCUM.
4610X
Pin
Count
A Maximum
mm (Inches)
4608X
1.00
4606X
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
.............................................200 VRMS
Operating Temperature
...................................-55°C to +125°C
4604X
.50
2.49
MAX.
(.098)
6
7
8
9
0
25
70
AMBIENT TEMPERATURE ( C )
125
10
11
12
13
14
Environmental Characteristics
°
.254 ± .050
(.010 ± .002)
MAX.
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat .....±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
Package Power Ratings (Watts)
Maximum package length is equal to 2.54mm (.100") times the
number of pins, less .005mm (.002").
Ambient
Temperature
70°C
Ambient
Temperature
70°C
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Pkg.
Pkg.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
4604X
4605X
4606X
4607X
4608X
4609X
0.50
0.63
0.75
0.88
1.00
1.13
4610X
4611X
4612X
4613X
4614X
1.25
1.38
1.50
1.63
1.75
Physical Characteristics
Flammability .........Conforms to UL94V-0
Body Material........................Epoxy resin
Standard Packaging
....................Bulk, Ammo-pak available
Typical Part Marking
Represents total content. Layout may vary.
Part Number
4606X-101-RC
4608X-102-RC
Part Number
6X-1-RC
How To Order
46 06 X - 101 - 222
Model
(46 = Conformal SIP)
8X-2-RC
Number of Pins
4610X-104-RC/RC 10X-4-RC/RC
Physical Configuration
(X = Thick Film Low Profile)
RC = ohmic value, 3-digit resistance code.
Electrical Configuration
• 101 = Bussed
• 102 = Isolated
• 104 = Dual Terminator
• AP1 = Bussed Ammo
• AP2 = Isolated Ammo
• AP4 = Dual Ammo
CIRCUIT
NUMBER OF PINS
RESISTANCE
CODE
6X-2-222
YYWW
DATE CODE
PIN ONE
INDICATOR
Resistance Code
• First 2 digits are significant
• Third digit represents the number of
zeros to follow.
MANUFACTURER'S
TRADEMARK
Consult factory for other available options.
Specifications are subject to change without notice.
294
4600X Series - Thick Film Conformal SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4600X-102-RC
4, 6, 8, 10, 12, 14 Pin
Model 4600X-101-RC
4 through 14 Pin
Model 4600X-104-R1/R2
4 through 14 Pin
ISOLATED RESISTORS
102 CIRCUIT
BUSSED RESISTORS
101 CIRCUIT
DUAL TERMINATOR
104 CIRCUIT
...
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
1
4
6
12
14
1
14
1
8
These models incorporate 2 to 7
isolated thick-film resistors of equal
value, each connected between two
pins.
These models incorporate 3 to 13
The 4608X-104 (shown above) is an 8-
pin configuration and terminates 6 lines.
Pins 1 and 8 are common for ground and
power, respectively. Twelve thick-film
resistors are paired in series between
the common lines (pins 1 and 8).
thick-film resistors of equal value, each
connected between a common bus
(pin 1) and a separate pin.
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Resistance Tolerance
Below 100 ohms ........................±2 ohms
100 ohms to 5 megohms................±2% *
Above 5 megohms ...........................±5%
Power Rating per Resistor
Power Rating per Resistor
At 70°C ....................................0.30 watt
At 70°C ....................................0.20 watt
Power Rating per Resistor
At 70°C ....................................0.20 watt
Power Temperature Derating Curve
Power Temperature Derating Curve
Power Temperature Derating Curve
.60
.50
.40
.30
.20
.10
.60
.50
.40
.30
.20
.10
.60
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
°
AMBIENT TEMPERATURE ( C )
°
AMBIENT TEMPERATURE ( C )
0
25
70
125
°
AMBIENT TEMPERATURE ( C )
Popular Resistance Values (101, 102 Circuits)**
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Popular Resistance Values (104 Circuit)**
Resistance
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
27
270
(Ohms)
Code
33
330
R1
R2
R1
R2
39
390
47
470
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
56
560
68
680
220
82
820
220
100
120
150
1,000
1,200
1,500
330
330
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
295
■ Marking on contrasting background for
permanent identification
Features
■ High profile offers increased power
handling
■ Wide assortment of pin packages
enhances design flexibility
■ Ammo-pak packaging available
■ Recommended for rosin flux and solvent
clean or no clean flux processes
4600H Series - Thick Film Conformal SIPs
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range
8.89
(.350)
A
MAX.
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50Ω to 2.2 MΩ..................±100ppm/°C
below 50Ω........................±250ppm/°C
above 2.2 MΩ...................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
Resistor Tolerance ................See circuits
Insulation Resistance
..................10,000 megohms minimum
Dielectric Withstanding Voltage
MAXIMUM
3.50
3.00
4614H
PIN #1
REF.
4612H
4610H
2.50
2.00
1.50
1.00
.50
MAX. 1.24
BOTH ENDS (.049)
3.43 +.38/ -.508
(.135 +.015/ -.020)
.508 ± .050
(.020 ± .002)
TYP.
4608H
2.54 ± .07
(.100 ± .003*)
TYP.
NON-ACCUM.
4606H
4604H
Pin
A Maximum
mm (Inches)
Count
.............................................200 VRMS
Operating Temperature
...................................-55°C to +125°C
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
2.49
MAX.
(.098)
6
7
8
Environmental Characteristics
9
0
25
70
125
10
11
12
13
14
TESTS PER MIL-STD-202........ ∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat .....±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
°
AMBIENT TEMPERATURE ( C )
.254 ± .050
(.010 ± .002)
TYP.
Maximum package length is equal to 2.54mm (.100") times the
number of pins, less .005mm (.002").
Package Power Ratings (Watts)
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Ambient
Temperature
70°C
Ambient
Temperature
70°C
Physical Characteristics
Flammability .........Conforms to UL94V-0
Body Material........................Epoxy resin
Standard Packaging
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Pkg.
Pkg.
4604H
4605H
4606H
4607H
4608H
4609H
0.80
1.00
1.20
1.40
1.60
1.80
4610H
4611H
4612H
4613H
4614H
2.00
2.20
2.40
2.60
2.80
....................Bulk, Ammo-pak available
Typical Part Marking
Represents total content. Layout may vary.
How To Order
46 06 H - 101 - 222
Part Number
4606H-101-RC
4608H-102-RC
Part Number
6H-1-RC
Model
(46 = Conformal SIP)
Number of Pins
8H-2-RC
Physical Configuration
(H = Thick Film High Profile)
Electrical Configuration
• 101 = Bussed
4610H-104-RC/RC 10H-4-RC/RC
• 102 = Isolated
RC = ohmic value, 3-digit resistance code.
• 104 = Dual Terminator
• AP1 = Bussed Ammo
• AP2 = Isolated Ammo
• AP4 = Dual Ammo
CIRCUIT
NUMBER OF PINS
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
RESISTANCE
6H-2-222
YYWW
CODE
DATE CODE
PIN ONE
INDICATOR
Consult factory for other available options.
MANUFACTURER'S
TRADEMARK
Specifications are subject to change without notice.
296
4600H Series - Thick Film Conformal SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4600H-102
4, 6, 8, 10, 12 or 14 Pin
Model 4600H-101-RC
4 through 14 Pin
Model 4600H-104-R1/R2
4 through 14 Pin
ISOLATED RESISTORS
BUSSED RESISTORS
101 CIRCUIT
DUAL TERMINATOR
104 CIRCUIT
102 CIRCUIT
...
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
1
4
6
12
14
1
14
1
8
These models incorporate 2 to 7
isolated thick-film resistors of equal
value, each connected between two
pins.
These models incorporate 3 to 13
The 4608H-104 (shown above) is an 8-
thick-film resistors of equal value, each
connected between a common bus
(pin 1) and a separate pin.
pin configuration and terminates 6 lines.
Pins 1 and 8 are common for ground and
power, respectively. Twelve thick-film
resistors are paired in series between the
common lines (pins 1 and 8).
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms .................±2% *
Above 5 megohms ..........................±5%
Resistance Tolerance
Below 100 ohms .......................±2 ohms
100 ohms to 5 megohms ...............±2% *
Above 5 megohms ..........................±5%
Power Rating per Resistor
Power Rating per Resistor
At 70°C ....................................0.50 watt
At 70°C ....................................0.30 watt
Power Rating per Resistor
At 70°C ....................................0.30 watt
Power Temperature Derating Curve
Power Temperature Derating Curve
Power Temperature Derating Curve
.70
.70
.70
.60
.50
.40
.30
.20
.10
.60
.60
.50
.40
.30
.20
.10
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
0
25
70
125
°
°
AMBIENT TEMPERATURE ( C )
AMBIENT TEMPERATURE ( C )
°
AMBIENT TEMPERATURE ( C )
Popular Resistance Values (104 Circuit)**
Resistance
Popular Resistance Values (101, 102 Circuits)**
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
(Ohms)
Code
R1
R2
R1
R2
27
270
33
330
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
39
390
47
470
220
56
560
220
68
680
330
82
820
330
100
120
150
1,000
1,200
1,500
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
297
■ Recommended for rosin flux and solvent
clean or no clean flux processes
Features
■ Medium profile offers increased power
handling
■ Marking on contrasting background for
permanent identification
■ Wide assortment of pin packages
enhances design flexibility
■ Ammo-pak packaging available
4600M Series - Thick Film Conformal SIPs
Electrical Characteristics
Package Power Temp. Derating Curve
Product Dimensions
6.35
(.250)
Standard Resistance Values
A
MAX.
MAXIMUM
......................10 ohms to 10 megohms
Maximum Operating Voltage ...........100V
Temperature Coefficient of Resistance
50W to 2.2 MW ................±100ppm/°C
below 50W .......................±250ppm/°C
above 2.2 MW ..................±250ppm/°C
TCR Tracking ..........................50ppm/°C
maximum; equal values
3.50
3.00
PIN #1
REF.
MAX. 1.24
BOTH ENDS (.049)
2.50
3.43 +.38/ -.508
(.135 +.015/ -.020)
.508 ± .050
(.020 ± .002)
4614M
TYP.
2.00
4612M
2.54 ± .07
Resistor Tolerance ................See circuits
Insulation Resistance
..................10,000 megohms minimum
Dielectric Withstanding Voltage
.............................................200 VRMS
Operating Temperature
...................................-55°C to +125°C
4610M
1.50
(.100 ± .003*)
TYP.
Pin
A Maximum
mm (Inches)
4608M
NON-ACCUM.
Count
4606M
1.00
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
6
4604M
.50
2.49
MAX.
(.098)
7
8
9
10
11
12
13
14
0
25
70
AMBIENT TEMPERATURE ( C )
125
Environmental Characteristics
°
.254 ± .050
(.010 ± .002)
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat
.................................................±0.25%
Terminal Strength........................±0.25%
Thermal Shock............................±0.25%
TYP.
Package Power Ratings (Watts)
Maximum package length is equal to 2.54mm (.100") times the
number of pins, less .005mm (.002").
Ambient
Temperature
70°C
Ambient
Temperature
70°C
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Pkg.
Pkg.
4604M
4605M
4606M
4607M
4608M
4609M
0.60
0.75
0.90
1.05
1.20
1.35
4610M
4611M
4612M
4613M
4614M
1.50
1.65
1.80
1.95
2.10
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Physical Characteristics
Flammability .........Conforms to UL94V-0
Body Material........................Epoxy resin
Standard Packaging
....................Bulk, Ammo-pak available
Typical Part Marking
Represents total content. Layout may vary.
Part Number
4606M-101-RC
4608M-102-RC
Part Number
6M-1-RC
How To Order
46 06 M - 101 - 222
8M-2-RC
Model
(46 = Conformal SIP)
4610M-104-RC/RC 10M-4-RC/RC
Number of Pins
Physical Configuration
(M = Thick Film Medium Profile)
RC = ohmic value, 3-digit resistance code.
Electrical Configuration
• 101 = Bussed
CIRCUIT
NUMBER OF PINS
• 102 = Isolated
RESISTANCE
CODE
6M-2-222
YYWW
• 104 = Dual Terminator
• AP1 = Bussed Ammo
• AP2 = Isolated Ammo
• AP4 = Dual Ammo
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
Consult factory for other available options.
Specifications are subject to change without notice.
298
4600M Series - Thick Film Conformal SIPs
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Dual Terminator (104 Circuit)
Model 4600M-102-RC
4, 6, 8, 10, 12, 14 Pin
Model 4600M-101-RC
4 through 14 Pin
Model 4600M-104-R1/R2
4 through 14 Pin
ISOLATED RESISTORS
102 CIRCUIT
BUSSED RESISTORS
101 CIRCUIT
DUAL TERMINATOR
104 CIRCUIT
...
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
1
4
6
12
14
1
14
1
8
These models incorporate 3 to 13
These models incorporate 2 to 7
isolated thick-film resistors of equal
value, each connected between two
pins.
thick-film resistors of equal value, each
connected between a common bus
(pin 1) and a separate pin.
The 4608M-104 (shown above) is an 8-
pin configuration and terminates 6 lines.
Pins 1 and 8 are common for ground and
power, respectively. Twelve thick-film
resistors are paired in series between the
common lines (pins 1 and 8).
Resistance Tolerance
Resistance Tolerance
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms .................±2% *
Above 5 megohms ..........................±5%
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 5 megohms..................±2% *
Above 5 megohms ...........................±5%
Resistance Tolerance
Below 100 ohms .......................±2 ohms
100 ohms to 5 megohms ...............±2% *
Above 5 megohms ..........................±5%
Power Rating per Resistor
Power Rating per Resistor
At 70°C ....................................0.40 watt
At 70°C ....................................0.25 watt
Power Rating per Resistor
At 70°C ....................................0.25 watt
Power Temperature Derating Curve
Power Temperature Derating Curve
Power Temperature Derating Curve
.60
.50
.40
.30
.20
.10
.60
.50
.40
.30
.20
.10
.60
.50
.40
.30
.20
.10
0
25
70
125
0
25
70
125
0
25
70
125
AMBIENT TEMPERATURE ( °C )
AMBIENT TEMPERATURE ( °C )
AMBIENT TEMPERATURE ( °C )
Popular Resistance Values (104 Circuit)**
Resistance
Popular Resistance Values (101, 102 Circuits)**
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
(Ohms)
Code
R1
R2
R1
R2
27
270
33
330
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
39
390
47
470
220
56
560
220
68
680
330
82
820
330
100
120
150
1,000
1,200
1,500
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
299
■ Marking on contrasting background for
permanent identification
Features
■ Standard E.I.A. package compatible with
automatic placement equipment
■ Standard electrical schematics: isolated,
bussed, dual terminator
■ Compliant leads to reduce solder joint
fatiguing
■ Custom circuits are available
■ Tape and reel packaging standard
(see page 304 for dimensions)
4400P Series - Thick Film Surface Mounted Wide Body
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
7.493 ± .076
(.295 ± .003)
Resistance Range
2.25
.....................10 ohms to 2.2 megohms
Maximum Operating Voltage .............50V
Temperature Coefficient of Resistance
50 ohms and above..........±100ppm/°C
below 50 ohms .................±250ppm/°C
TCR Tracking
...............50ppm/°C max.; equal values
Operating Temperature
...................................-55°C to +125°C
Insulation Resistance
4420P
2.00
1.75
1.50
1.25
1.00
.75
4416P
.406 ± .025
(.016 ± .001)
10.34 ± .25
(.407 ± .010)
.50
12.95 ± .05
(.510 +.001/-.002)
.25
10.41 ± .05
(.410 ± .003)
0
25
70
AMBIENT TEMPERATURE ( C )
125
°
..........................10,000 megohms min.
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
1.27 ± .076
(.050 ± .003*)
TYP.
.127 + .127/ - .000
(.005 + .005/ - .000)
.....Meet requirements of MIL-STD-202
Method 208
Package Power Rating at 70°C
2.65
4420P......................................2.00 watts
4416P......................................1.60 watts
MAX.
(.104)
Environmental Characteristics
.305 + .000/ - .076
(.012 + .000/ - .003)
TESTS PER MIL-STD-202.........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat .....±0.25%
Thermal Shock............................±0.25%
RECOMMENDED LAND PATTERN
Recommended Land Pattern
8° MAX.
2.0
(.079)
TYP.
.94 + .33/ - .35
(.037 + .013/ - .014)
1
2
3
4
5
6
7
8
9
10
20
19
18
17
16
15
14
13
12
11
1.27
(.050)
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
SO-16L
.63
(.025)
TYP.
TYP.
SO-20L
12.07
(.475)
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Physical Characteristics
.63
(.025)
Flammability .........Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
7.6
Typical Part Marking
(.299)
11.6
epresents total content. Layout may vary.
(.457)
NOTE: Land pattern dimensions are based on
design rules established by the Institute for Inter-
connecting and Packaging Electronic Circuits in
IPC-SM-782.
PART NUMBER
How To Order
RESISTANCE
4420P-1
CODE
CIRCUIT
-103
YYWW
DATE CODE
44 20 P - 1 - 103
PIN ONE
MANUFACTURER'S
INDICATOR
TRADEMARK
Model
(44 = SMD SOL Pkg)
Number of Pins
Electrical Configuration
• 1 or 4 = Isolated*
• 2 = Bussed*
• 3 = Dual Terminator*
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
*For tube packaging, use T01, T02, T03 or T04.
Consult factory for other available options.
Specifications are subject to change without notice.
300
4400P Series - Thick Film Surface Mounted Wide Body
Isolated Resistors (1 And 4 Circuits)
Bussed Resistors (2 Circuit)
Dual Terminator (3 Circuit)
Model 4416P-1
Model 4416P-2
Model 4416P-3
Model 4420P-1 (Shown)
Model 4420P-2 (Shown)
Model 4420P-3 (Shown)
16
9
20
19
18
17
16
15
14
13
12
11
20
19
18
17
16
15
14
13
12
11
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R19 R18 R17 R16 R15 R14 R13 R12 R11
1
2
3
4
5
6
7
8
9
10
R1 R2
R3
R4
R5
R6
R7
R8 R9 R10
Model 4416P-4
Model 4420P-4 (Shown)
R2
1
2
3
4
5
6
7
8
9
10
1
8
20
19
18
17
16
15
6
14
13
12
11
R10
R1
R9
R2
R8
R3
R7
R4
R6
R5
4420P-3 terminates 16 lines,
convenient for a 16-bit computer bus.
1
2
3
4
5
7
8
9
10
Resistance Tolerance
Resistance Tolerance
Resistance Tolerance
Below 100 ohms ......................±2 ohms
100 ohms to 2.2 megohms ............±2% *
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 2.2 megohms...............±2% *
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 2.2 megohms ..............±2% *
Power Rating per Resistor
Power Rating per Resistor
Power Rating per Resistor
1 Circuit at 70°C ....................0.160 watt
4 Circuit at 70°C ....................0.160 watt
3 Circuit at 70°C ....................0.115 watt
2 Circuit at 70°C ....................0.160 watt
Resistor Power Temp. Derating Curve
Resistor Power Temp. Derating Curve
Resistor Power Temp. Derating Curve
.225
.200
.225
.200
.225
.200
001, 004
.160
.160
.125
.150
.115
.125
.075
.025
.075
.075
.025
.025
0
70
AMBIENT TEMPERATURE ( C )
125
0
70
AMBIENT TEMPERATURE ( C )
125
0
70
AMBIENT TEMPERATURE ( C )
125
°
°
°
Popular Resistance Values (1, 4, And 2 Circuits)**
Popular Resistance Values (3 Circuit)**
Resistance
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
(Ohms)
Code
R1
R2
R1
R2
27
270
33
330
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
39
390
47
470
220
56
560
220
68
680
330
82
820
330
100
120
150
1,000
1,200
1,500
3,000
6,200
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
301
■ Compliant leads to reduce solder joint
fatiguing
Features
■ Standard E.I.A. package compatible with
automatic placement equipment
■ Standard electrical schematics: isolated,
bussed, dual terminator
■ Tape and reel packaging standard
(see page 304 for dimensions)
■ Custom circuits are available
■ For ordering guidelines, see page 304
■ Marking on contrasting background for
permanent identification
4800P Series - Thick Film Surface Mounted Medium Body
Package Power Temp. Derating Curve
Product Dimensions
Product Characteristics
5.59 ± .12
(.220 ± .005)
Resistance Range
4820P
.....................10 ohms to 2.2 megohms
Maximum Operating Voltage .............50V
Temperature Coefficient of Resistance
50Ω and above .................±100ppm/°C
below 50Ω........................±250ppm/°C
TCR Tracking
1.6
4818P
4816P
1.4
1.2
1.0
.8
4814P
.432 ± .076
(.017 ± .003)
TYP.
7.62 ± .25
(.300 ± .010)
.6
...............50ppm/°C max.; equal values
100ppm/°C 50W and above
Operating Temperature
...................................-55°C to +125°C
Insulation Resistance
.4
13.72 ± .12
(.540 ± .005)
.2
12.45 ± .12
(.490 ± .005)
0
25
70
AMBIENT TEMPERATURE ( C )
125
11.18 ± .12
(.440 ± .005)
°
9.91 ± .12
(.390 ± .005)
..........................10,000 megohms min.
Dielectric Withstanding Voltage
.............................................200 VRMS
Lead Solderability
.....Meet requirements of MIL-STD-202
Method 208
Package Power Rating at 70°C
4814P......................................1.12 watts
4816P......................................1.28 watts
4818P......................................1.44 watts
4820P......................................1.60 watts
1.27 ± .076
(.050 ± .003*)
TYP.
.13 + .12/ - .00
(.005 + .005/ - .000)
2.03 ± .12
(.080 ± .005)
Environmental Characteristics
.305 + .000/ - .101
(.012 + .000/ - .004)
Typical Part Marking
R = .008" TYP.
TESTS PER MIL-STD-202 ........∆R MAX.
Short Time Overload ...................±0.25%
Load Life .....................................±1.00%
Moisture Resistance ...................±0.50%
Resistance to Soldering Heat .....±0.25%
Thermal Shock............................±0.25%
Represents total content. Layout may vary.
8° MAX.
PART NUMBER
.611 ± .101
(.024 ± .004)
RESISTANCE
CODE
4816P-1
-330
YYWW
CIRCUIT
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
Lead coplanarity .102mm (.004 inch) max. at mounting surface.
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Physical Characteristics
Recommended Land Pattern
Flammability .........Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
2.0
(.079)
TYP.
1
2
3
4
5
6
7
8
9
20
19
18
17
16
15
14
13
12
SOM-14
8.26
(.325)
1.27
(.050)
TYP.
TYP.
SOM-16
9.53
(.375)
How To Order
SOM-18
10.80
SOM-20
12.07
(.475)
48 16 P - 1 - 103
(.425)
.63
(.025)
Model
(48 = SOM Pkg)
10 11
4.9
Number of Pins
(.193)
8.9
(.350)
Electrical Configuration
• 1 or 4 = Isolated*
• 2 = Bussed*
NOTE: Land pattern dimensions are based on
design rules established by the Institute for Inter-
connecting and Packaging Electronic Circuits in
IPC-SM-782.
• 3 = Dual Terminator*
Resistance Code
• First 2 digits are significant
• Third digit represents the
number of zeros to follow.
*For tube packaging, use T01, T02, T03 or T04.
Consult factory for other available options.
Specifications are subject to change without notice.
302
4800P Series - Thick Film Surface Mounted Medium Body
Isolated Resistors (1 And 4 Circuits)
Bussed Resistors (2 Circuit)
Dual Terminator (3 Circuit)
Model 4814P-1
Model 4816P-1 (Shown)
Model 4818P-1
Model 4814P-2
Model 4816P-2 (Shown)
Model 4818P-2
Model 4814P-3
Model 4816P-3 (Shown)
Model 4818P-3
Model 4820P-1
Model 4820P-2
Model 4820P-3
16
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R2
R3
R4
R5
R6
R7
R8
R15 R14 R13 R12 R11 R10 R9
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
1
2
3
4
5
6
7
8
R1
R2
R3
R4
R5
R6
R7
R8
Model 4816P-4 (Shown)
Model 4820P-4
1
2
3
4
5
6
7
8
R2
1
8
16
15
14
13
12
11
6
10
9
R8
R7
R6
R5
Resistance Tolerance
Resistance Tolerance
R1
R2
R3
R4
Below 100 ohms ......................±2 ohms
100 ohms to 2.2 megohms ............±2% *
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 2.2 megohms ..............±2% *
1
2
3
4
5
7
8
Power Rating per Resistor
Power Rating per Resistor
Resistance Tolerance
3 Circuit at 70°C ....................0.080 watt
2 Circuit at 70°C ....................0.080 watt
10 ohms to 49 ohms ...................±1 ohm
50 ohms to 2.2 megohms...............±2% *
Power Rating per Resistor
Resistor Power Temp. Derating Curve
Resistor Power Temp. Derating Curve
1 Circuit at 70°C ....................0.160 watt
4 Circuit at 70°C ....................0.160 watt
.225
.200
.225
.200
Resistor Power Temp. Derating Curve
.175
.150
.175
.150
.125
.100
.075
.050
.025
.225
.200
.125
.100
.075
.050
.025
.175
.150
.125
.100
.075
.050
.025
0
25
70
AMBIENT TEMPERATURE ( C )
125
0
25
70
AMBIENT TEMPERATURE ( C )
125
°
°
0
25
70
125
AMBIENT TEMPERATURE (°C)
Popular Resistance Values (3 Circuit)**
Resistance
Popular Resistance Values (1, 4, And 2 Circuits)**
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
Ohms
Code
(Ohms)
Code
10
22
100
220
270
330
390
470
560
680
820
101
121
151
180
220
181
221
271
331
391
471
561
681
821
102
122
152
1,800
2,000
2,200
2,700
3,300
3,900
4,700
5,600
6,800
8,200
10,000
12,000
182
202
222
272
332
392
472
562
682
822
103
123
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
153
183
203
223
273
333
393
473
563
683
823
104
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
560,000
680,000
820,000
1,000,000
124
154
184
224
274
334
394
474
564
684
824
105
R1
R2
R1
R2
27
270
160
180
240
390
270
330
390
470
161
181
221
221
331
331
302
241
391
271
331
391
471
622
33
330
39
390
220
47
470
220
56
560
330
68
680
330
82
820
3,000
6,200
100
120
150
1,000
1,200
1,500
* ±1% TOLERANCE IS AVAILABLE BY ADDING SUFFIX CODE “F” AFTER THE RESISTANCE CODE.
**NON-STANDARD VALUES AVAILABLE, WITHIN RESISTANCE RANGE.
Specifications are subject to change without notice.
303
Surface Mounted Ordering Guide
*Circuit Codes
Electrical
Configuration
Tape & Reel
Tubes
T01
Examples
Isolated
1
2
3
4
4816P-1-101
Bussed
T02
Isolated Circuit in Tape & Reel Package
4816P-T01-101
Dual Terminated
Adj. Isolated
T03
T04
Isolated Circuit in Slide Tube Package
*4816P-X-RC: To specify package type, replace “X” with appropriate “Circuit Code”.
W
F
POLYSTYRENE REEL
T
DIRECTION
OF FEED
(ANTI-STATIC)
1.5 + .10/ - .00
(.059 + .004/ - .00)
DIA.
1.5
(.059)
MIN. DIA.
1.5
(.059)
MIN.
4.0 ± .10
(.157 ± .004)
20.2
(.795)
13.0 ± .20
(.512 ± .008)
MIN.
12.0 ± .10
(.472 ± .004)
CARRIER TAPE
STATIC DISSIPATIVE
330.2
(13.0)
MAX.
COVER TAPE
(ANTISTATIC)
NOTE: DIMENSIONS NOT SPECIFIED ARE PER EIA RS-481-2.
MM
DIMENSIONS:
(IN)
V
Standard Quantity
Per Reel
Carrier Tape
Width (W)
Cover Tape
Width (V)
Reel Width
(T)
Pocket Center
(F)
Model
4416P
4420P
1,500
1,500
24.0 ± .30
(.945 ± .012)
21.0
30.4
(1.197)
11.5 ± .10
(.453 ± .004)
NOM.
(.827)
MAX.
4814P
4816P
4818P
4820P
2,000
4908P
4914P
4916P
12mm
12mm
16mm
Contact
Factory
Contact
Factory
8mm
8mm
8mm
2,500
Leader Length = 500 min.
Trailer Length = 500mm min.
Empty Component Pockets
Sealed with Cover Tape
}
Specifications are subject to change without notice.
304
Features
■ Cost effective R-C construction
■ Insulation resistance testing for reliability
■ Molded surface mount or DIP packaging
■ Compatible with automatic assembly
equipment
■ Custom value capability
601 Series - RC Networks T-Filters
4420P
General Description
7.493 ± .076
(.295 ± .003)
Continual advances in digital IC technology are creating stringent demands on
EMI/RFI levels in equipment.
EMI/RFI low pass filters are required in personal computers, data terminals, test
equipment and process controllers for high frequency suppression into or out of
electronic equipment.
.432 ± .056
(.017 ± .002)
TYP.
10.34 ± .25
(.407 ± .010)
For additional information, see application note on pages 320 and 321.
12.95 ± .07
(.510 ± .003)
1.27 ± .076
TYP.
Electrical Specifications - Resistors
(.050 ± .003*)
.127 + .127/ - .000
(.005 + .005/ - .000)
2.65
Standard Resistance Range*............................................................10 ohms - 100 ohms
Series Resistance Tolerance ...................................................................................±10%
Temperature Coefficient of Resistance ........................................................±300ppm/°C
Operating Voltage .................................................................................25 volts maximum
Operating Temperatures ..........................................................................+10°C to +85°C
*Other Resistance Values Available, 10 ohms - 1 megohm
MAX.
(.104)
.305 + .000/ - .076
(.012 + .000/ - .003)
8° MAX.
.940 + .355
(.037 ± .014)
Electrical Specifications - Capacitors
Standard Capacitance Range ...................................................................50pF to 200pF
Capacitance Tolerance .............................................................................................±30%
Temperature Characteristic ........................................................................................Z5U
Operating Temperatures ...........................................................................+10°C to +85°C
Voltage Rating .......................................................................................................25 volts
Dielectric Withstand Voltage ...............................................................2.5 x rated voltage
Insulation Resistance ............................................................10,000 megohms minimum
4118R AND 4120R
.635
(.025)
PIN #1 REF.
27.05
4.57 + .12/ - .28
(.180 + .005/ - .011)
(1.065)
24.51
(.965)
MAX.
.89 ± .25
(.035 ± .010)
TYP.
MAX.
Environmental Specifications - Resistors
∆R MAXIMUM
Thermal Shock .......................................................................................................±0.5%
Resistance to Solder Heat .....................................................................................±0.5%
Terminal Strength ...................................................................................................±0.5%
8.40
MAX.
(.331)
2.03 ± .12
(.080 ± .005)
3.43 + .38/ - .25
(.135 + .015/ - .010)
2.54 ± .25
(.100 ± .010*)
TYP.
NON-ACCUM.
1.65 + .12/ - .07
(.065 + .005/ - .003)
Mechanical Specifications
.438 ± .050
TYP.
Flammability...................................................................................Conforms to UL94 V-0
Leadframe .....................................................................................Copper, solder coated
Body Material ............................................................................................Epoxy/Novolac
Lead Solderability.................................Meet requirements of MIL-STD-202 Method 208
(.019 ± .002)
7.87 ± .25
(.310 ± .010)
TO OUTSIDE
WHEN PINS
6.71 ± .10
(.264 ± .004)
ARE PARALLEL
.76 ± .25
(.030 ± .010)
.254 ± .050
(.010 ± .002)
8.64 ± .50
(.340 ± .020)
Governing dimensions are metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Specifications are subject to change without notice.
305
601 Series - RC Networks T-Filters
Attenuation Vs. Frequency - Typical Capacitor Values With R= 25 Ohms
ATTENUATION VS. FREQUENCY - TYPICAL CAPACITOR VALUES WITH R = 25 OHMS
Attenuation vs. Frequency
+5dB
Model 4120R-601-250/500
Model 4420-601-250/500
50pF - 3dB @ 84 MHz
0dB
-5dB
50pF
Attenuation vs. Frequency
Model 4120R-601-250/201
Model 4420P-601-250/201
200pF - 3dB @ 21 MHz
-10dB
-15dB
200pF
-20dB
-25dB
-30dB
-35dB
-40dB
DC
100Hz
1kHz
10kHz
.1MHz
1MHz
10MHz 100MHz
1GHz
indicates - 3dB rolloff frequency (f )
c
These low-pass filters are ideal for installation between I/O drivers and RS 232 connec-
tors.
Typical Circuit
TYPICAL CIRCUIT
4120R-601-RC/CC
4420R-601-RC/CC
How To Order EMI/RFI Filter Networks
44 20 P - 601 - RC/CC
1
20
Model
(44 = SMD SOIC Pkg)
(41 = Molded DIP)
Resistance/Capacitance Code
•
•
First 2 digits are significant
Third digit represents the
number of zeros to follow
R
R
C
Number of Pins
Physical Configuration
P = Surface Mount Device
(SMD)
Electrical Configuration
R = Molded DIP
R
Insert RC/CC Code from table below to
form part number.
Packages Available
4420P-601-*RC/CC-SMD
4120R-601-*RC/CC-DIP
4118R-601-*RC/CC-DIP
RC
250
270
470
820
101
R
CC
500
101
181
201
C
25Ω
27Ω
47Ω
82Ω
100Ω
50pF
100pF
180pF
200pF
*First two digits are significant. Third
digit represents the number of zeros to
follow.
10
11
Seven circuits in an 18-pin package.
Eight circuits in a 20-pin package.
CONSULT FACTORY FOR VALUES NOT LISTED
Specifications are subject to change without notice.
306
Features
■ Low noise termination for CMOS
■ Combined resistors and capacitors in SIP
package saves space
■ Reduced insertion time
■ Insulation resistance testing for reliability
■ Pin counts from 4 to 16 available
700 Series - RC Terminator Networks
Electrical Characteristics - Resistors
Typical Part Marking
Standard Resistance Range .........................................................22 ohms to 500K ohms
Resistance Tolerance ±5% ............................................................50 ohms to 1 megohm
Operating Voltage .................................................................................50 volts maximum
CIRCUIT
PART NUMBER
4608H-701
RC/CC
YYWW
RESISTANCE
CODE
DATE CODE
PIN ONE
Electrical Characteristics - Capacitors
INDICATOR
MANUFACTURER'S
TRADEMARK
Capacitance Range ............................................................................39 pF to 47,000 pF
Capacitance Range ...................................................................470 pF to 47,000 pF X7R
Capacitance Range ............................................................................39pF to 470pF NPO
Capacitance Tolerance .............................................................................................±20%
Operating Temperature ..............................................................................-30°C to +85°C
Voltage Rating........................................................................................................50 volts
Product Dimensions
8.89
(.350)
MAX.
A
MAXIMUM
Physical Characteristics
Flammability ..................................................................................Conforms to UL 94 V-0
Lead Frame Material.......................................................................Copper, solder coated
Body Material ............................................................................................Conformal coat
PIN #1
REF.
MAX. 1.24
BOTH ENDS (.049)
3.43 + .38/ - .25
(.135 + .015/ - .010)
.508 ± .050
(.020 ± .002)
TYP.
2.54 ± .07
701
(.100 ± .003* )
TYP.
NON-ACCUM.
Pin
Count
A Maximum
mm (Inches)
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
38.04 (1.498)
40.59 (1.598)
3.81
MAX.
(.150)
6
7
1
8
8
9
10
11
12
13
14
15
16
.254 ± .050
(.010 ± .002)
TYP.
1
9
Governing dimensions are metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
NO. OF LINES
BOURNS P/N
PACKAGE
7
8
9
4608H-701-RC/CC
4609H-701-RC/CC
4610H-701-RC/CC
High Profile
Conformal
SIP
702
1
10
NO. OF LINES
BOURNS P/N
PACKAGE
High Profile
Conformal SIP
8
4610H-702-RC/CC
FOR ADDITIONAL INFORMATION, SEE APPLICATION NOTE ON PAGES 322 AND 323.
Specifications are subject to change without notice.
307
■ Eliminate overshoot and ringing, increase
noise immunity, minimize signal distor-
tion, and lower EMI/RFI radiation.
Additional Features
■ Prevent bus lines and control signals
from floating to undefined logic levels.
■ Minimize space and routing problems,
and reduce manufacturing cost per
installed resistive function.
■ Optimize signal transmission in high
performance systems through proper
termination.
■ Increase board yields and reliability by
reducing component count.
700 Series - Resistor Networks RC Terminator Networks
Standard Capacitance Values And Codes
Standard Resistance Values And Codes
Capacitance
Code
Capacitance
Code
Resistance
(Ohms)
Resistance
Code
Resistance
(Ohms)
Resistance
Code
Capacitance
Capacitance
39pF
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
390
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
821
1000pF
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
.010µF
.012
102
122
152
182
222
272
332
392
472
562
682
822
103
123
153
183
223
273
333
393
473
22
27
33
39
47
56
68
82
220
270
330
390
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
821
102
122
152
182
202
222
272
332
392
5,600
6,800
8,200
562
682
822
103
123
153
183
203
223
273
333
393
473
563
683
823
104
124
154
184
224
274
334
394
474
10,000
12,000
15,000
18,000
20,000
22,000
27,000
33,000
39,000
47,000
56,000
68,000
82,000
100,000
120,000
150,000
180,000
220,000
270,000
330,000
390,000
470,000
100
120
150
180
220
270
330
390
470
560
680
820
1,000
1,200
1,500
1,800
2,000
2,200
2,700
3,300
3,900
.015
.018
.022
.027
.033
.039
.047
How To Order RC Terminator Networks
46 08 H - 701 - RC/CC
Model
Resistance/
(46 = Conformal SIP)
Capacitance Code
• First two digits
are significant
Values not appearing in above tables are available to optimize system
performance. Contact Bourns Networks to inquire.
Number of Pins
• 4 to 16
• Third digit
represents the
number of zeros
to follow.
Physical Configuration
(H = High Profile)
Electrical Configuration
• 701 = Single Termination
• 702 = Double Termination
Specifications are subject to change without notice.
308
■ Minimize space and routing problems,
and reduce manufacturing cost per
installed resistive function
Features
■ Optimize data transmission in ECL
systems through proper termination
between drivers and receivers
■ Increase board yields and reliability by
reducing component count
■ Minimize overshoot, undershoot, and
ringing while increasing noise immunity
■ Provide decoupling capacitors
800 Series - RC Networks ECL Terminator Circuits
General Description
Product Dimensions
Typical Part Marking
Digital systems incorporating Emitter
Coupled Logic (ECL) or other ultra-high
switching speed logic families will require
signal termination to prevent transmis-
sion line effects such as reflections and
ringing due to fast transition times.
801 AND 802
MEDIUM PROFILE
Represents total content. Layout may vary.
6.35
(.250)
MAX.
A
MAXIMUM
CIRCUIT
PART NUMBER
4608M-801
500/103
YYWW
RESISTANCE
CODE
PIN #1
REF.
Bourns 800 series resistor capacitor net-
works are ideal for termination of high
speed transmission lines. Each network
is composed of resistors for parallel
termination and bypass capacitor(s) for
cross talk noise reduction.
DATE CODE
PIN ONE
INDICATOR
MAX. 1.24
BOTH ENDS (.049)
MANUFACTURER'S
TRADEMARK
3.43 + .38/ - .25
(.135 + .015/ - .010)
.508 ± .050
(.020 ± .002)
TYP.
2.54 ± .07
803 AND 805
Represents total content. Layout may vary.
(.100 ± .003*)
TYP.
NON-ACCUM.
The 5 conformal coated SIP circuit varia-
tions offered are as follows.
3.81
(.150)
MAX.
CIRCUIT
PART NUMBER
4610H-805
500/103
YYWW
RESISTANCE
CODE
Electrical Characteristics
DATE CODE
PIN ONE
INDICATOR
Resistance Tolerance .......................±5%
Resistance Power.......................0.1 watt
Capacitance Tolerance ..................±20%
Capacitor Dielectric Type ..................X7R
Capacitance Voltage Rating .......50 Volts
.254 ± .050
(.010 ± .002)
TYP.
MANUFACTURER'S
TRADEMARK
HIGH PROFILE
804
Physical Characteristics
8.89
(.350)
MAX.
A
Represents total content. Layout may vary.
MAXIMUM
Flammability .........Conforms to UL94V-0
Leadframe ...................Copper (Olin 194)
Body Material...............Epoxy/Anhydride
(Conformal Material)
Custom Resistance Range
...........................10 ohms to 50K ohms
Custom Capacitance Range
CIRCUIT
PART NUMBER
4612M-804
500
YYWW
RESISTANCE
CODE
PIN #1
REF.
DATE CODE
PIN ONE
INDICATOR
MAX. 1.24
BOTH ENDS (.049)
3.43 + .38/ - .25
(.135 + .015/ - .010)
MANUFACTURER'S
TRADEMARK
.508 ± .050
TYP.
................................39pF to 100,000pF
(.020 ± .002)
2.54 ± .07
(.100 ± .003*)
TYP.
NON-ACCUM.
NPO and Z5U dielectrics available on a
custom basis.
2.49
(.098)
MAX.
.254 ± .050
(.010 ± .002)
TYP.
Governing dimensions are metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
FOR ADDITIONAL INFORMATION, SEE APPLICATION NOTE ON PAGES 324 AND 325.
Specifications are subject to change without notice.
309
800 Series - RC Networks ECL Terminator Circuits
801 8, 10 and 12 Pin SIP
(4608M-801-RC/CC)
802 10 Pin SIP
803 8, 10 and 12 Pin SIP 10K ECL
(4610H-803-ZoC/CC)
(4610M-802-RC/CC)
Designed to terminate 6 to 10 trans-
mission lines using parallel termination
techniques. Standard resistance values
include 50, 68, 75, 82, 90 or 100
Designed to terminate 6 transmission
lines using parallel termination tech-
niques. Popular resistance values
include 50, 68, 75, 82, 90 or 100
ohms and are chosen to match the
Designed to terminate 6 to 10 trans-
mission lines using Thevenin equivalent
parallel termination techniques in
systems using 10K ECL. Popular
impedance values include 50, 70, 75, 80,
90, 100, 120, 150 or 200 ohms. Standard
ohms and are chosen to match the
characteristic impedance (Z ) of the
characteristic impedance (Z ) of the
o
o
transmission line. A 0.01 mF capacitor is
provided to help maintain a solid power
supply level within the network package,
mitigating any cross talk or feedthrough
effects. Values for R and C not shown in
the following table are available on a
custom basis.
transmission line. Two 0.01 µF
values for R1 and R2, based on Z , have
o
capacitors are provided to reduce cross
talk between lines and to decrease
network package inductance. Values for
R and C not shown in the following table
are available on a custom basis.
been chosen to accommodate 10K ECL
designs. A 0.1 µF capacitor is provided
to reduce cross talk noise within the
network package. Values for Z and C
o
not shown in the following table are
available on a custom basis. This type of
termination is an alternative to parallel
termination used when a separate V
power supply is not available.
tt
Standard 801 Part Numbers
Standard 802 Part Numbers
R
±2%
C
±20%
R
±2%
C
±20%
Bourns Part Number
Bourns Part Number
Standard 803 Part Numbers
50Ω
68Ω
75Ω
82Ω
90Ω
100Ω
0.01µF
0.01µF
0.01µF
0.01µF
0.01µF
0.01µF
4610M-802-500/103
4610M-802-680/103
4610M-802-750/103
4610M-802-820/103
4610M-802-900/103
4610M-802-101/103
50Ω
68Ω
75Ω
82Ω
90Ω
100Ω
0.01µF
0.01µF
0.01µF
0.01µF
0.01µF
0.01µF
4608M-801-500/103
4608M-801-680/103
4608M-801-750/103
4608M-801-820/103
4608M-801-900/103
4608M-801-101/103
Zo
±2%
C
±20%
R1
R2
Bourns Part No.
50Ω 81Ω 130Ω 0.1µF 4610H-803-500/104
70Ω 113Ω 182Ω 0.1µF 4610H-803-700/104
75Ω 121Ω 195Ω 0.1µF 4610H-803-750/104
80Ω 130Ω 208Ω 0.1µF 4610H-803-800/104
90Ω 146Ω 234Ω 0.1µF 4610H-803-900/104
100Ω 162Ω 260Ω 0.1µF 4610H-803-101/104
120Ω 194Ω 312Ω 0.1µF 4610H-803-121/104
150Ω 243Ω 390Ω 0.1µF 4610H-803-151/104
200Ω 325Ω 520Ω 0.1µF 4610H-803-201/104
801 Electrical Schematic and Application
802 Electrical Schematic and Application
1
10
1
8
803 Electrical Schematic and Application
R2
R1
C
1
10
Specifications are subject to change without notice.
310
800 Series - RC Networks ECL Terminator Circuits
804 12 Pin SIP ECL
(4612M-804-RC)
805 8, 10 and 12 Pin SIP 100K ECL
(4610H-805-ZoC/CC)
How To Order 801
46 08 M - 801 - 500 103
Model
Designed to terminate 6 transmission
lines using parallel termination
techniques. Popular resistance values
include 50 or 100 ohms. A 0.1 µF
capacitor is provided for connection
Designed to terminate 6 to 10 trans-
mission lines using Thevenin equivalent
parallel termination techniques in
systems using 100K ECL. Popular
impedance values include 50, 70, 75, 80,
90, 100, 120, 150 or 200 ohms. Standard
(46 = Conformal SIP)
Number of Pins
(8, 10, 12)
Physical Config.
•M = Medium Profile
Electrical Configuration
to V . Two 0.01 µF capacitors are
Resistance Code
ee
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = ohms
provided for connection to V . Values for
values for R1 and R2, based on Z , have
tt
o
R and C not shown in the following table
are available on a custom basis.
been chosen to accommodate 100K
ECL designs. A 0.1 µF capacitor is
provided to reduce cross talk noise
within the network package. Values for
Capacitance Code
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = picofarads
Standard 804 Part Numbers
Consult factory for other available options.
Z
and C not shown in the following
o
table are available on a custom basis.
This type of termination is an alternative
to parallel termination used when a
R
Ct
Ce
How To Order 802
Bourns Part Number
±2% ±20% ±20%
46 10 M - 802 - 500 103
separate V power supply is not
50Ω 0.01µF 0.1µF 4612M-804-500
100Ω 0.01µF 0.1µF 4612M-804-101
Model
(46 = Conformal SIP)
tt
available.
Number of Pins
Physical Config.
•M = Medium Profile
Standard 805 Part Numbers
Electrical Configuration
804 Electrical Schematic and Application
Resistance Code
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = ohms
Zo
±2%
C
±20%
R1
R2
Bourns Part No.
Capacitance Code
50Ω 90Ω 113Ω 0.1µF 4610H-805-500/104
70Ω 126Ω 158Ω 0.1µF 4610H-805-700/104
75Ω 135Ω 169Ω 0.1µF 4610H-805-750/104
80Ω 144Ω 180Ω 0.1µF 4610H-805-800/104
90Ω 161Ω 202Ω 0.1µF 4610H-805-900/104
100Ω 180Ω 225Ω 0.1µF 4610H-805-101/104
120Ω 216Ω 270Ω 0.1µF 4610H-805-121/104
150Ω 270Ω 338Ω 0.1µF 4610H-805-151/104
200Ω 360Ω 450Ω 0.1µF 4610H-805-201/104
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = picofarads
Consult factory for other available options.
How To Order 803 and 805
46 08 H - 803 - 101 103
Model
(46 = Conformal SIP)
Number of Pins
(8, 10, 12)
Physical Config.
•H = High Profile
805 Electrical Schematic and Application
Electrical Configuration
•803
•805
Impedance Code
R2
C
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = ohms
Capacitance Code
R1
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = picofarads
Consult factory for other available options.
1
10
How To Order 804
46 12 M - 804 - 500
Model
(46 = Conformal SIP)
Number of Pins
Physical Config.
•M = Medium Profile
Electrical Configuration
Resistance Code
•First 2 digits are significant
•Third digit represents the number of zeros to follow.
•Units = ohms
Consult factory for other available options.
Specifications are subject to change without notice.
311
■ High temperature lead attachment to
withstand reflow temperatures up
to 260°C
Features
■ Integrates capacitor function in one
package
■ Design reduces termination noise
■ Popular standard capacitance values
available
■ Isolated and bussed circuits available
900 Series - Capacitor Networks
Electrical Characteristics
Product Dimensions
Isolated Capacitors (902 Circuit)
Capacitance Tolerance
6.35
(.250)
MAX.
...
A
39 pF - 270 pF.............................±10%
>270 pF - 0.1 µF..........................±20%
Circuit Configuration...Isolated & bussed
Capacitor Dielectric.................NPO, X7R
Capacitance Voltage Rating
39 pF - 270 pF
..............................NPO - 50V @ +25°C
>270 pF - 0.047 µF
MAXIMUM
1
4
6
10
12
14
PIN #1
REF.
These models incorporate 2 to 7
isolated capacitors of equal value, each
connected between two pins.
MAX. 1.24
BOTH ENDS (.049)
3.43 + .38/ - .25
(.135 + .015/ - .010)
.508 ± .050
(.020 ± .002)
TYP.
...............................X7R - 50V @ +25°C
Bussed Capacitors (901 Circuit)
2.54 ± .07
(.100 ± .003*)
Physical Characteristics
TYP.
Pin
A Maximum
NON-ACCUM.
Lead Spacing ...............0.100” (2.54 mm)
Lead Frame Material
..........................Copper, solder coated
Body Material
Count mm (Inches)
3.81
MAX.
(.150)
4
5
6
7
8
10.11 (.398)
12.65 (.498)
15.19(.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
1
14
These models incorporate 3 to 13
capacitors of equal value, each
connected between a common bus
(Pin 1) and a separate pin.
....Epoxy/Anhydride conformal material
.254 ± .050
(.010 ± .002 )
9
TYP.
Z5U dielectrics available on a custom
basis.
10
11
12
13
14
Standard High Volume Part Numbers
4610M-901-103
4610M-902-103
4610M-901-104
4610M-902-104
Typical Part Marking
PART
NUMBER
CIRCUIT
4610M - 901
- 103
YYWW
CAPACITANCE
CODE
DATE CODE
PIN ONE
INDICATOR
How To Order
MANUFACTURER'S
TRADEMARK
46 10 M - 901 - 103
Model
(46 = SIP Pkg)
Standard Capacitance Values and Codes
These are the standard and non-standard capacitance values available. Consult factory for
capacitance values and types outside this range. Tolerances of 5% , 10% and 20% are available.
Number of Pins
Profile
(M = Medium Profile)
“NPO” DIELECTRICS
10% Tolerance
“X7R” DIELECTRICS
20% Tolerance
“X7R” DIELECTRICS
20% Tolerance
Electrical Configuration
• 901 = Bussed
• 902 = Isolated
Capacitance Capacitance
Capacitance
(pF)
Capacitance
Code
Capacitance
(µF)
Capacitance
Code
(pF)
Code
39
47
56
68
82
390
470
560
680
820
101
121
151
181
221
271
330
390
470
560
680
331
391
471
561
681
820
102
122
152
182
222
272
332
392
472
562
682
822
0.01
103
123
153
183
223
273
333
393
473
563
683
823
104
Capacitance Code
0.012
0.015
0.018
0.022
0.027
0.033
0.039
0.047
0.056
0.068
0.082
0.1
• First 2 digits are significant
• Third digit represents the
number of zeros to follow
Consult factory for other available options.
100
820
120
150
180
220
270
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
Specifications are subject to change without notice.
312
Features
■ Custom circuits available per factory
4100T - Thin Film Molded DIP
PACKAGE POWER TEMPERATURE
Product Dimensions
Product Characteristics
DERATING CURVE (4100T-1)
Resistance Range ........50 to 100K ohms
Resistance Tolerance
.............................±0.1% , ±0.5% , ±1%
Temperature Coefficient
3.00
.635
(.025)
PIN #1 REF.
4120T
2.75
....................±100ppm/°C, ±50ppm/°C,
±25ppm/°C
Temperature Range
...................................-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
TCR Tracking ..........................±5ppm/°C
Maximum Operating Voltage .............50V
2.50
2.25
2.00
1.75
1.50
4118T
27.05
MAX.
(1.065)
24.51
MAX.
(.965)
21.97
MAX.
(.865)
4116T
4114T
19.43
(.765)
MAX.
4.57 + .12/ - .28
(.180 + .005/ - .011)
.89 ± .25
(.035 ± .010)
11.81
(.465)
MAX.
TYP.
Environmental Characteristics
TESTS PER MIL-STD-202........ ∆R MAX.
Thermal Shock............................... 0.1%
Low Temperature Operation ........ 0.25%
Short Time Overload ...................... 0.1%
Resistance to Soldering Heat ........ 0.1%
Moisture Resistance ...................... 0.1%
Mechanical Shock........................ 0.25%
Life ................................................. 0.5%
High Temperature Storage ............. 0.2%
Low Temperature Storage.............. 0.1%
1.25
1.00
8.40
MAX.
(.331)
4108T
25
2.03 ± .12
(.080 ± .005)
3.43 + .38/ - .25
(.135 + .015/ - .010)
2.54 ± .25
(.100 ± .010*)
TYP.
NON-ACCUM.
0
70
125
150
°
AMBIENT TEMPERATURE ( C )
1.65 + .12/ - .07
(.065 + .005/ - .003)
.438 ± .050
TYP.
Package Power Ratings at 70°C
(.019 ± .002)
4108T......................................1.09 watts
4114T......................................2.00 watts
4116T......................................2.25 watts
4118T......................................2.50 watts
4120T......................................2.80 watts
Physical Characteristics
7.87 ± .25
(.310 ± .010)
TO OUTSIDE
WHEN PINS
Lead Frame Material
..........................Copper, solder coated
Body Material Flammability
...........................Conforms to UL94V-0
Body Material ..................Novolac Epoxy
6.71 ± .10
(.264 ± .004)
ARE PARALLEL
Typical Part Marking
.254 ± .050
(.010 ± .002)
8.64 ± .50
Represents total content. Layout may vary.
CIRCUIT
PART
NUMBER
(.340 ± .020)
TC CODE
4116T-2-
-2203BC
YYWW
ABSOLUTE
TOLERANCE CODE
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
RESISTANCE
CODE (4 DIGIT)
How To Order
DATE CODE
41 16 T - 2 - 2222 F A B
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
Model
(41 = Molded Dip)
Number of Pins
Physical Config.
•T = Thin Film
Bussed Resistors (2 Circuit)
Isolated Resistors (1 Circuit)
Available in 8, 14, 16, 18, and 20 Pin
Available in 8, 14, 16, 18, and 20 Pin
Electrical Configuration
•2 = Bussed
•1 = Isolated
ISOLATED RESISTORS
14
001 CIRCUIT
8
BUSSED RESISTORS
14
002 CIRCUIT
8
Resistance Code
•First 3 digits are significant
•Fourth digit represents the
number of zeros to follow.
Absolute Tolerance Code
•B = ±0.1%
•D = ±0.5%
•F = ±1%
1
7
Temperature Coefficient Code
•A = ±100ppm/°C •C = ±25ppm/°C
•B = ±50ppm/°C
1
7
Ratio Tolerance (Optional)
•A = ±0.05% to R1 •B = ±0.1% to R1
•D = ±0.5% to R1
These models incorporate 4, 7, 8, 9, or
10 thin-film resistors of equal value,
each connected between a separate pin.
These models incorporate 7, 13, 15, 17,
or 19 thin-film resistors of equal value,
each connected by a common pin.
Consult factory for other available options.
Power Rating per Resistor..........0.2 watt
Resistance Range .......50 to 100K ohms
Power Rating per Resistor........0.12 watt
Resistance Range .........50 to 50K ohms
Specifications are subject to change without notice.
313
Features
■ Low profile provides compatibility with
DIPs
■ Also available in medium profile (4300S -
.250”) and high profile (4300K - .350”)
■ Marking on contrasting background
■ Custom circuits available per factory
4300T, S, K Series - Thin Film Molded SIP
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
4300T
Resistance Range
(Low Profile, 4300T)
27.53
(1.084)
Bussed ...................49.9 to 100K ohms
Isolated ......................20 to 200K ohms
Series.........................20 to 100K ohms
Resistance Tolerance
............................±0.1% , ±0.5% , ±1%
Temperature Coefficient
MAX.
24.99
MAX.
(.984)
19.92
22.45
(.884)
MAX.
MAX.
1.75
4.95
(.195)
MAX.
MAX.
(.784)
14.83
(.584)
1.50
PIN #1 REF.
4311T
....................±100ppm/°C, ±50ppm/°C,
±25ppm/°C
Temperature Range ......-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
TCR Tracking ..........................±5ppm/°C
Maximum Operating Voltage .............50V
1.25
1.00
.75
4310T
4309T
.381 + .127/ - .000
(.015 + .005/ - 000)
3.43 + .38/ - .25
(.135 + .015/ - .010)
1.02 ± .12
4308T
4306T
(.040 ± .005)
.483 ± .050
(.020 ± .002)
TYP.
.50
2.54 ± .07
(.100 ± .003*)
TYP.
NON-ACCUM.
Environmental Characteristics
.25
Thermal Shock and
2.16 ± .10
(.085 ± .004)
Power Conditioning ....................... 0.1%
Short Time Overload ...................... 0.1%
Terminal Strength ......................... 0.25%
Resistance to Soldering Heat ........ 0.1%
Moisture Resistance ...................... 0.1%
Life ............................................... 0.50%
0
25
70
125
150
°
AMBIENT TEMPERATURE ( C )
1.02 ± .05
(.0425 ± .002)
Package Power Ratings at 70°C
T
S
K
.254 ± .050
(.010 ± .002)
Physical Characteristics
4304 .......... ............ 0.60...... 0.80 watts
4306 ...... 0.75.......... 0.90...... 1.20 watts
4308 ...... 1.00.......... 1.20...... 1.60 watts
4309 ...... 1.13 ................................watts
4310 ...... 1.25.......... 1.50...... 2.00 watts
4311 ...... 1.38 ................................watts
Body Material Flammability
...........................Conforms to UL94V-0
Lead Frame Material
..........................Copper, solder coated
Body Material ..................Novolac epoxy
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Typical Part Marking
Represents total content. Layout may vary.
How To Order
CIRCUIT
PART
NUMBER
43 11 T - 101 - 2222 F A B
Model
(43 = Molded SIP)
RESISTANCE
CODE
4311T-101-
1003BB
YYWW
DATE CODE
PIN ONE
INDICATOR
Number of Pins
MANUFACTURER'S
TRADEMARK
Physical Config.
•T = Low Profile Thin Film
•S = Medium Profile Thin Film
•K = High Profile Thin Film
Electrical Configuration
•101 = Bussed
•102 = Isolated
•106 = Series
Resistance Code
•First 3 digits are significant
•Fourth digit represents the
number of zeros to follow.
Absolute Tolerance Code
•B = ±0.1%
•D = ±0.5%
•F = ±1%
Temperature Coefficient Code
•A = ±100ppm/°C •C = ±25ppm/°C
•B = ±50ppm/°C
Ratio Tolerance (Optional)
•A = ±0.05% to R1 •D = ±0.5% to R1
•B = ±0.1% to R1
Consult factory for other available options.
Specifications are subject to change without notice.
314
4300T, S, K Series - Thin Film Molded SIP
Isolated Resistors (102 Circuit)
Available in 6, 8, 10 Pin
Bussed Resistors (101 Circuit)
Series Circuit (106 Circuit)
Available in 6, 8, 9, 10, 11 Pin
Available in 6, 8, 9, 10, 11 Pin
SERIES CIRCUIT
106 CIRCUIT
ISOLATED RESISTORS
102 CIRCUIT
BUSSED RESISTORS
101 CIRCUIT
1
11
1
6
8
10
1
11
These models incorporate 3, 4, or 5
These models incorporate 5, 7, 8, 9, or
10 thin-film resistors of equal value, each
connected in a series.
These models incorporate 5, 7, 8, 9, or
10 thin-film resistors of equal value, each
connected between a separate pin.
isolated thin-film resistors of equal value,
each connected between a
separate pin.
Power Rating per Resistor
Power Rating per Resistor
Power Rating per Resistor
T ...............................................0.18 watt
S ...............................................0.20 watt
K ...............................................0.25 watt
Resistance Range… ...20 to 200K ohms
T ...............................................0.10 watt
S ...............................................0.12 watt
K ...............................................0.15 watt
Resistance Range .......20 to 100K ohms
T ...............................................0.10 watt
S ...............................................0.12 watt
K ...............................................0.15 watt
Resistance Range…49.9 to 100K ohms
Specifications are subject to change without notice.
315
Features
■ Low profile provides compatibility with
DIPs
■ Also available in medium profile (4600S -
.250”) and high profile (4600K - .350”)
■ Marking on contrasting background
■ Custom circuits available per factory
4600T, S, K Series - Thin Film Conformal SIP
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range
(Low Profile, 4300T)
4600T
5.08
(.200)
MAX.
Bussed ...................49.9 to 100K ohms
Isolated ......................20 to 200K ohms
Series.........................20 to 100K ohms
Resistance Tolerance
............................±0.1% , ±0.5% , ±1%
Temperature Coefficient
....................±100ppm/°C, ±50ppm/°C,
±25ppm/°C
Temperature Range
A
MAXIMUM
4614T
1.75
1.50
1.25
1.00
4612T
4610T
4608T
PIN #1
REF.
MAX. 1.24
BOTH ENDS (.049)
3.43 + .38/ - .25
(.135 + .015/ - .010)
.508 ± .050
(.020 ± .002)
TYP.
2.54 ± .07
...................................-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
TCR Tracking ..........................±5ppm/°C
(.100 ± .003*)
TYP.
4606T
4604T
.75
.50
.25
Pin
A Maximum
NON-ACCUM.
Count
mm (Inches)
4
5
10.11 (.398)
12.65 (.498)
15.19 (.598)
17.73 (.698)
20.27 (.798)
22.81 (.898)
25.35 (.998)
27.89 (1.098)
30.43 (1.198)
32.97 (1.298)
35.51 (1.398)
2.49
MAX.
(.098)
6
7
Environmental Characteristics
8
9
Thermal Shock and
10
11
12
13
14
0
25
70
125
150
Power Conditioning ......................0.1%
Short Time Overload ...................... 0.1%
Terminal Strength ........................ 0.25%
Resistance to Soldering Heat ........ 0.1%
Moisture Resistance ...................... 0.1%
Life ................................................ 0.5%
.254 ± .050
(.010 ± .002)
°
AMBIENT TEMPERATURE ( C )
TYP.
Package Power Ratings at 70°C
Maximum package length is equal to 2.54mm (.100") times the
number of pins, less .005mm (.002").
T
S
K
4604 ...... 0.50.......... 0.60........ 0.8 watts
4605 ...... 0.63.......... 0.75........ 1.0 watts
4606 ...... 0.75.......... 0.90........ 1.2 watts
4607 ...... 0.88.......... 1.05........ 1.4 watts
4608 ...... 1.00.......... 1.20........ 1.6 watts
4609 ...... 1.13.......... 1.35........ 1.8 watts
4610 ...... 1.25.......... 1.50........ 2.0 watts
4611 ...... 1.38.......... 1.65........ 2.2 watts
4612 ...... 1.50.......... 1.80........ 2.4 watts
4613 ...... 1.63.......... 1.95........ 2.6 watts
4614 ...... 1.75.......... 2.10........ 2.8 watts
Physical Characteristics
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
Body Material Flammability
...........................Conforms to UL94V-0
Body Material........................Epoxy resin
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
HOW TO ORDER
46 11 T - 101 - 2222 F A B
Model
(46 = Conformal SIP)
Number of Pins
Physical Config.
TYPICAL PART MARKING
•T = Low Profile Thin Film
•S = Medium Profile Thin Film
•K = High Profile Thin Film
Represents total content. Layout may vary.
PART
NUMBER
CIRCUIT
Electrical Configuration
•101 = Bussed
•102 = Isolated
•106 = Series
ABSOLUTE
TOLERANCE
CODE
4611K-101
2203BC
YYWW
RESISTANCE
CODE (4 DIGIT)
•
DATE CODE
Resistance Code
PIN ONE
INDICATOR
•First 3 digits are significant
•Fourth digit represents the
number of zeros to follow.
MANUFACTURER'S
TRADEMARK
Absolute Tolerance Code
•B = ±0.1%
•D = ±0.5%
•F = ±1%
Temperature Coefficient Code
•A = ±100ppm/°C •C = ±25ppm/°C
•B = ±50ppm/°C
Ratio Tolerance (Optional)
•A = ±0.05% to R1 •D = ±0.5% to R1
•B = ±0.1% to R1
Consult factory for other available options.
Specifications are subject to change without notice.
316
4600T, S, K Series - Thin Film Conformal SIP
Isolated Resistors (102 Circuit)
Bussed Resistors (101 Circuit)
Available in 4 through 16 Pin
Series Circuit (106 Circuit)
Available in 4 through 16 Pin
Available in 4, 6, 8, 10, 12, 14, 16 Pin
ISOLATED RESISTORS
102 CIRCUIT
BUSSED RESISTORS
101 CIRCUIT
SERIES CIRCUIT
106 CIRCUIT
1
6
8
16
1
16
1
16
These models incorporate 2 to 8
These models incorporate 3 to 15
thin-film resistors of equal value, each
connected between a separate pin.
These models incorporate 3 to 15
thin-film resistors of equal value, each
connected in a series.
isolated thin-film resistors of equal value,
each connected between a
separate pin.
Power Rating per Resistor
Power Rating per Resistor
Power Rating per Resistor
T ...............................................0.18 watt
S ...............................................0.20 watt
K ...............................................0.25 watt
Resistance Range… ...20 to 200K ohms
T ...............................................0.10 watt
S ...............................................0.12 watt
K ...............................................0.15 watt
Resistance Range…49.9 to 100K ohms
T ...............................................0.10 watt
S ...............................................0.12 watt
K ...............................................0.15 watt
Resistance Range .......20 to 100K ohms
Specifications are subject to change without notice.
317
Features
■ Increased lead density
■ Custom circuits available per factory
4400T - Thin Film Wide Body Gull Wing
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range ........10 to 150K ohms
Resistance Tolerance
.............................±0.1% , ±0.5% , ±1%
Temperature Coefficient
....................±100ppm/°C, ±50ppm/°C,
±25ppm/°C
Temperature Range
...................................-55°C to +125°C
Insulation Resistance
..................10,000 megohms minimum
TCR Tracking ..........................±5ppm/°C
Maximum Operating Voltage .............50V
7.493 ± .076
(.295 ± .003)
4420T
4416T
2.00
1.75
1.50
1.25
.406 ± .025
(.016 ± .001)
10.34 ± .25
(.407 ± .010)
12.95 ± .05
(.510 ± .002)
10.41 ± .05
(.410 ± .002)
1.00
.75
Environmental Characteristics
1.27 ± .076
TESTS PER MIL-STD-202 .........∆R MAX
Thermal Shock............................... 0.1%
Short Time Overload ...................... 0.1%
Resistance to Soldering Heat ........ 0.1%
Moisture Resistance ...................... 0.5%
Life ................................................ 0.5%
TYP.
(.050 ± .003*)
.127 + .127/ - .000
(.005 + .005/ - .000)
2.65
.50
MAX.
0
25
70
125
150
(.104)
°
AMBIENT TEMPERATURE ( C )
.305 + .000/ - .076
(.012 + .000/ - .003)
Physical Characteristics
8° MAX.
Lead Frame Material
..........................Copper, solder coated
Body Material Flammability
...........................Conforms to UL94V-0
Body Material ..................Novolac Epoxy
Package Power Ratings at 70°C
.94 + .33/ - .35
(.037 + .013/ - .014)
4416T......................................1.60 watts
4420T......................................2.00 watts
Governing dimensions are in metric. Dimensions in parentheses
are inches and are approximate.
*Terminal centerline to centerline measurements made at point of
emergence of the lead from the body.
Typical Part Marking
Represents total content. Layout may vary.
CIRCUIT
PART
How To Order
NUMBER
TC CODE
4416T-2
-2203BC
RESISTANCE
ABSOLUTE
YYWW
44 16 T - 2 - 2222 F A B
•
CODE (4 DIGIT)
TOLERANCE CODE
Model
DATE CODE
PIN ONE
INDICATOR
(44 = SOL Wide
Body Gull
Wing)
MANUFACTURER'S
TRADEMARK
Number of Pins
Bussed Resistors (2 Circuit)
Available in 16 and 20 Pin
Isolated Resistors (1 Circuit)
Available in 16 and 20 Pin
Physical Config.
•T = Thin Film
Electrical Configuration
•2 = Bussed
•1 = Isolated
ISOLATED RESISTORS
16
001 CIRCUIT
BUSSED RESISTORS
16
002 CIRCUIT
9
9
Resistance Code
•First 3 digits are significant
•Fourth digit represents the
number of zeros to follow.
Absolute Tolerance Code
1
8
•B = ±0.1%
•D = ±0.5%
•F = ±1%
These models incorporate 8 or 10
thin-film resistors of equal value, each
connected between a separate pin.
Temperature Coefficient Code
•A = ±100ppm/°C •C = ±25ppm/°C
•B = ±50ppm/°C
1
8
These models incorporate 15 or 19
thin-film resistors of equal value, each
connected by a common pin.
Ratio Tolerance (Optional)
•A = ±0.05% to R1 •D = ±0.5% to R1
•B = ±0.1% to R1
Power Rating per Resistor........0.15 watt
Resistance Range .......10 to 150K ohms
Power Rating per Resistor........0.10 watt
Resistance Range .........10 to 75K ohms
Consult factory for other available options.
Specifications are subject to change without notice.
318
Features
■ Increased lead density
■ Custom circuits available per factory
4800T - Thin Film Medium Body Gull Wing
Product Characteristics
Package Power Temp. Derating Curve
Product Dimensions
Resistance Range ........10 to 100K ohms
Resistance Tolerance
............................±0.1% , ±0.5% , ±1%
Temperature Coefficient
....................±100ppm/°C, ±50ppm/°C,
±25ppm/°C
5.59 ± .12
(.220 ± .005)
1.75
4820T
1.50
.432 ± .076
(.017 ± .003)
4818T
TYP.
TCR Tracking ..........................±5ppm/°C
Temperature Range
...................................-55°C to +125°C
7.62 ± .25
(.300 ± .010)
4816T
1.25
4814T
1.00
13.72 ± .12
(.540 ± .005)
12.45 ± .12
(.490 ± .005)
Maximum Operating Voltage .............50V
11.18 ± .12
(.440 ± .005)
.75
.50
.25
9.91 ± .12
(.390 ± .005)
Environmental Characteristics
TESTS PER MIL-STD-202 .........∆R MAX
Thermal Shock................................0.1%
Short Time Overload .......................0.1%
Resistance to Soldering Heat .........0.1%
Moisture Resistance .......................0.1%
Life ................................................ 0.5%
1.27 ± .050
(.050 ± .005*)
TYP.
.13 + .12/ - .00
(.005 + .005/ - .000)
0
25
70
125
150
°
AMBIENT TEMPERATURE ( C )
2.03 ± .12
(.080 ± .005)
Physical Characteristics
Package Power Ratings at 70°C
.305 + .000/ - .101
(.012 + .000/ - .004)
Lead Frame Material
..........................Copper, solder coated
Body Material Flammability
...........................Conforms to UL94V-0
Body Material ..................Novolac Epoxy
R = .008" TYP.
4814T......................................1.12 watts
4816T......................................1.28 watts
4818T......................................1.44 watts
4820T......................................1.60 watts
8° MAX.
.611 ± .101
(.024 ± .004)
Typical Part Marking
Governing dimensions are metric. Dimensions in parentheses
are inches and are approximate.
Represents total content. Layout may vary.
CIRCUIT
PART
How To Order
NUMBER
TC CODE
4816T-2
-2203BC
YYWW
48 16 T - 2 - 2222 F A B
RESISTANCE
ABSOLUTE
•
Model
CODE (4 DIGIT)
TOLERANCE CODE
(48 = SOM Medium
Body Gull
Wing)
DATE CODE
PIN ONE
INDICATOR
MANUFACTURER'S
TRADEMARK
Number of Pins
Physical Config.
•T = Thin Film
Isolated Resistors (1 Circuit)
Bussed Resistors (2 Circuit)
Electrical Configuration
•2 = Bussed
•1 = Isolated
Available in 14, 16, 18, and 20 Pin
Available in 14, 16, 18, and 20 Pin
Resistance Code
•First 3 digits are significant
•Fourth digit represents the
number of zeros to follow.
ISOLATED RESISTORS
14
001 CIRCUIT
8
BUSSED RESISTORS
14
002 CIRCUIT
8
Absolute Tolerance Code
•B = ±0.1%
•D = ±0.5%
•F = ±1%
Temperature Coefficient Code
•A = ±100ppm/°C •C = ±25ppm/°C
•B = ±50ppm/°C
1
7
Ratio Tolerance (Optional)
•A = ±0.05% to R1 •D = ±0.5% to R1
•B = ±0.1% to R1
These models incorporate 7, 8, 9, or 10
thin-film resistors of equal value, each
connected between a separate pin.
1
7
These models incorporate 13, 15, 17 or
19 thin-film resistors of equal value,
each connected by a common pin.
Consult factory for other available options.
Power Rating per Resistor........0.10 watt
Resistance Range .......10 to 100K ohms
Power Rating per Resistor........0.08 watt
Resistance Range .........10 to 50K ohms
Specifications are subject to change without notice.
319
Application Notes – EMI/RFI Filters 601 Series
A final consideration is the insertion loss. As mentioned
General Description
previously, the voltage drop across the two resistors will
attenuate the voltage reaching the load. Normally, logic high
and low levels will still be within valid limits. The signal
attenuation can be minimized by choosing small R values rel-
ative to the load impedance. Typical values for R range from
10 to 50 ohms.
Continual advances in digital IC technology are creating
stringent demands on EMI/RFI levels in equipment.
EMI/RFI low p a s s filte rs a re re q uire d in p e rs ona l
computers, data terminals, test equipment and process con-
trollers for high frequency suppression into or out of elec-
tronic equipment.
Bourns Low-pass Filters for EMI/RFI Suppression
Filter Selection and Design Considerations
The “roll-off” frequency fc, defined as the frequency at
which the filter passes one-half the power it receives at its
input terminal, can be specified from the low megahertz
range up to about 100MHz. This frequency, also known as
the “-3 dB” frequency, will be determined by the R and C
values chosen. Custom resistor and capacitor values are
available to optimize system performance.
The specification of these values will depend on con-
straints relating to noise frequencies, system performance
and driver loading. The following procedure is suggested to
choose appropriate values of R and C.
The firs t s te p is to d e te rmine the d e s ire d roll-off
frequency of the filter, which will lie between the signal
frequency and the dominant frequencies of the EMI/RFI
nois e. By determining the pole of the filter (s etting the
denominator of the transfer function equal to zero), the
roll-off frequency can be expressed in terms of R and C:
R
+ R + 2R
L
S
NO. OF LINES
BOURNS P/N
PACKAGE
DIP
f
=
c
2πC(R + R )(R + R )
S
L
7
8
8
4118R-601-RC/CC
4120R-601-RC/CC
4420P-601-RC/CC
Furthermore, the RC combination must be chosen so
that the additional RC time delay will not result in exceeding
the sampling window of the receiving IC, due to excessive
lengthening of signal rise and fall times.
Wide Body SMD
Rise time from 10% to 90% of the waveform amplitude
can be calculated in terms of the circuit’s RC time constant
using the 1 –exp (–t/RC) relationship for a charging capacitor.
At 10% , t = 0.1 time constants, and at 90% , t = 2.3 time
Standard Resistance/Capacitance Values And Codes
RC
250
270
470
820
101
R
CC
500
101
181
201
C
L
H
constants. “Time constant” equals R C, where R is the
th th
25Ω
27Ω
47Ω
82Ω
100Ω
50pF
100pF
180pF
200pF
Thevenin-equivalent resistance as seen by the capacitor.
Therefore, equating the difference in the two times to
the maximum tolerable rise (or fall) time:
t
t
= t - t = 2.2R
C
max
max
H
L
th
(R + R )(R + R )C
S
L
= 2.2
R
+ R + 2R
S
L
Specifications are subject to change without notice.
320
EMI/RFI Filters 601 Series
Reducing EMI/RFI
R
S
R
R
The radiation of electromagnetic interference and radio fre-
quency interference (EMI/RFI) to the environment is a pressing
concern for many manufacturers of electronic equipment.
According to FCC regulations (Parts 15 and18), emissions must
not exceed certain maximum levels depending on whether the
equipment is for strictly industrial use or also for residential use.
A graphical representation of these limits is shown in Figure 1.
Similar restrictions apply to equipment sold in Europe (VDE
0871, a West German standard), Japan (VCCI), and to the mili-
tary (MIL-STD-461/462.)
R
C
L
V
V
out
in
Figure 2.
basic T-Filter configuration
Under steady state conditions, the capacitor C offers an infi-
nite impedance to the DC component of the input waveform
(which will be assumed for the moment to be entering from the
left side). Thus, the DC component of the signal voltage is
passed to the load, but reduced in value by the voltage drop
across the two resistors.
The impedance of C becomes lower at higher (noise) frequen-
cies. Thus, the noise component of the signal faces a voltage
divider consisting of the first resistor (R) and C. At the high fre-
quencies of the noise component, R will be much greater than
the impedance of C, therefore, most of the noise voltage will be
dropped across the resistor. Almost no noise current flows
through the load and, therefore, will hardly affect the DC volt-
ages (i.e., the signal) across the load.
F.C.C. LIMIT FOR CLASS A (INDUSTRIAL) EQUIPMENT AT 30 METERS.
225
F.C.C. LIMIT FOR CLASS B (MASS MARKET) EQUIPMENT AT 3 METERS.
200
175
150
125
100
75
Since the filter is symmetric, its principle of operation is the
same for waveforms traveling in the opposite direction, in which
case the voltage divider is formed by the second resistor and
the capacitor. Such a symmetrical design is useful for filtering
signals on a bidirectional bus.
50
25
Assuming purely resistive source and load impedances, the
transfer function is given by:
25
54
88
108
136
174
216
300
400
470
1000
FREQUENCY IN MEGAHERTZ
Vout
Vin
R
L
Figure 1.
F.C.C. radiation limits for class A
and class B computing devices
=
jωC(R + R )(R + R ) + (R + R + 2R)
S
L
S
L
Several approaches are available today to control EMI/RFI
emissions, including grounded metal enclosures, shielded
cables, judicious component placement and interconnect
designs, power-supply decoupling, and low-pass filtering of sig-
nal lines.
Low-pass filtering can be effective for EMI/RFI filtering when
the noise components to be rejected occur at frequencies high-
er than the signal frequency (to be passed). For these situations,
Bourns has developed low-pass resistor-capacitor filter net-
works which are ideal for board-level EMI/RFI filtering.
A typical application would be to filter signal lines between
RS-232 drivers and their corresponding connectors. In such low
to medium frequency applications, these networks represent a
more useful (and economical) solution than inductive type filters
such as ferrite beads. In fact, ferrite beads become mostly inef-
fective below 10MHz.
The basic “T” configuration (Figure 2) is a standard R-C net-
work available in versions for 7 or 8 input lines. The 8 input-line
version is available in both through-hole DIP and surface-mount
models.
FOR PRODUCT SPECIFICATIONS, SEE PAGES 305 AND 306.
Specifications are subject to change without notice.
321
RC Terminator Networks 700 Series
General Description
This series of RC Networks is designed to eliminate transmis-
sion line effects, such as signal reflections and ringing which
influence high speed CMOS. The Networks capacitor blocks
DC currents while acting as a short circuit during signal transmi-
tions, thus reducing power consumption. The capacitor also
holds the bus at the last logic level to avoid excessive currents.
Block Diagram Of CPU/BUS Configuration
Bus termination (in this case, RC termination technique)
considerably reduces overshoots and ringings.
Transmission lines require termination when the time it takes
the signal to travel from one end of the line to the other (the
propagation delay) amounts to 1/2 or more of the edge rate of
the signal (signal rise time or fall time). In other words, termina-
tion is required when:
T
> (1/2)Te
T
= edge rate
= propagation delay
pd
e
T
pd
Present high-speed logic families have typical rise times of 2
nanoseconds, while the propagation delay of a common PCB is
about 1.77 ns per foot. Applying the above relationship, a trans-
mission line will require termination if it is longer than 7 inches.
High performance systems will commonly need Bourns termi-
nation networks for CPU address, data, and control lines. In
addition, clock inputs, write and read strobe lines, chip select or
output enable lines of high speed devices such as static RAMs,
PROMs, and PLDs will also need termination networks.
Bus Termination Applications Of Bourns Networks
At high frequencies, the traces on a printed circuit board act
as transmission lines—in which impedance mismatches can
cause distortion of signals on that line. Terminating the lines
with resistor or resistor-capacitor networks provides the means
to match impedances and reduce signal distortion.
TERMINATION TYPICAL ADDS RESISTOR CAPACITOR
TECHNIQUE
POWER DELAY
USAGE
VALUE
VALUE
RC
MEDIUM
NO
Z
o
200-500pF
FOR PRODUCT SPECIFICATIONS, SEE PAGES 307 AND 308.
Specifications are subject to change without notice.
322
RC Terminator Networks 700 Series
For designers developing high performance systems, exact
termination resistances which account for line loading may be
desirable. This resistance (or equivalent resistance) can be cal-
culated using the formula:
701
Z
o
1
8
R
=
term
V
1 + C / C
d
o
where Z is the characteristic impedance of the line, C is the
o
d
total capacitance associated with the receiving devices (typically
5 pF per input gate) or other loads off the line, and C is the
o
intrinsic capacitance of the line.
1
9
The series termination technique suppresses reflections at the
driving device should any waveforms be reflected back from the
driven end of the line. Series termination preserves power since
there is no current path to ground or Vcc as in the other meth-
ods. However, this technique results in incident signals that
transition slowly. It is also not appropriate for distributed loads
due to the half-amplitude waveforms which exist at intermediate
points along the line.
NO. OF LINES
BOURNS P/N
PACKAGE
7
8
9
4608H-701-RC/CC
4609H-701-RC/CC
4610H-701-RC/CC
High Profile
Conformal
SIP
RC termination represents a compromise between power con-
sumption and effect on performance. Its principle of operation is
similar to parallel termination, but the capacitor blocks the DC
component of the signal, thus reducing power consumption.
However, the effectiveness of this method depends on the fre-
quency and duty cycle of the application. RC termination also
can be an expensive technique if implemented using discrete
components rather than a network.
702
1
10
Typical Usage
While not every address, data and control line may require
pull-up/pull-down or termination as part of the system’s design,
the table below shows common practice for some popular
devices.
NO. OF LINES
BOURNS P/N
PACKAGE
High Profile
Conformal SIP
8
4610H-702-RC/CC
For all RC terminators, standard R values are 50, 68, 75 and 100
ohms. Standard values for C are 47, 100, 500 and 1000pF. See
data sheet to select custom combinations of R and C.
MICRO-
MICROPROCESSORS
CONTROLLERS
REFERENCES:
68000
68020 80286 80386 68HC11 8051
1. Blood, W.R., MECL System Design Handbook, Motorola, Inc., 1983.
2. F100K ECL Data Book, Fairchild Semiconductor Corp., 1986.
3. MECL Device Data, Motorola, Inc., 1987.
No. address lines
Termination
23
0
32
32
24
0
32
32
No. data lines
Termination
16
0
32
32
16
0
32
32
No. control lines
Termination
21
0
27
27
13
0
15
15
Total I/O lines
Termination
60
0
91
91
53
0
79
79
38
0
32
0
Specifications are subject to change without notice.
323
Bourns Emitter Coupled Logic Terminator 800 Series
The actual, effective delay and impedance due to
loading from stubs or additional devices off the line will be:
Typical Application
A typical application using a Bourns 801 RC Network in con-
junction with a 10K ECL design is shown below. Vee is typically
connected to -5.2 volts (10K ECL) or -4.5 volts (100K ECL). V
T
’ = T √1 + C /C
pd
pd
d
o
cc
is typically connected to GND. V is typically connected to -2.0
tt
Zo
√1 + (C /C )
volts. The 801 network shown below can terminate up to 6
transmission lines and provides a 0.01 µF capacitor to reduce
cross talk and feedthrough effects.
Z ’ =
o
d
o
Where C = intrinsic capacitance of the line
o
d
C
= capacitance due to loading and stubs
off the line
T
= basic propagation delay of the line
....= basic impedance of the line
pd
BOURNS 801
10K ECL TERMINATOR
Z
o
To formulate a guideline for when line termination is
necessary, take the ratio of the rise time or fall time and the two-
way delay along the line. The maximum length for unterminated
lines will result as follows:
MC10H118 MECL 10KH
V
cc1
V
cc2
A
B
out
out
A1
in
B1
in
TRANSMISSION
LINES
B1
in
A1
in
A1
in
B1
in
in
L
=
T
r
max
A2
in
B2
in
2T
pd
’
A2
B2
in
A2 B2
in, in
V
ee
V
V
tt ee
Where T = rise or fall time
r
pd
T
= propagation delay per unit length
Transmission Line Considerations
The above equation implies that the faster the edge rate or the
higher the loading on the line (i.e., higher fanout), the more likely
that termination will be necessary for a given line length.
In high speed circuit applications, the signal propagation delay
(T ) and characteristic impedance (z , along a printed circuit
pd
o)
board line must be taken into consideration. In general, if the
two-way delay along the line is greater than the rise or fall time
of the signal, then controlled impedance techniques (i.e., termi-
nation) must be utilized to prevent undesirable ringing or over-
and undershoots. The delay and impedance can be calculated
by knowing the intrinsic inductance (L ) and capacitance (C ) of
Parallel Termination
o
o
For maximum circuit performance or distributed loads, parallel
termination is the most appropriate technique. A parallel termi-
nated line uses a resistor connected to -2 volts (ECL application)
at the receiving end. The resistor value matches the characteris-
the line:
T
= √L C
pd
o o
tic impedance of the line (Z ), thereby producing zero reflection
o
Z
=
√L /C
o
o
o
at the receiver. In addition, the terminating resistor also provides
output pull down, so a separate pull down resistor at the driving
end is unnecessary.
FOR PRODUCT SPECIFICATIONS, SEE PAGES 309 - 311.
Specifications are subject to change without notice.
324
Bourns Emitter Coupled Logic Terminator 800 Series
Bourns 801, 802, and 804 conformal coated SIP resistor
capacitor networks are designed to terminate 6 transmission
lines using the parallel termination technique. A 0.01 µF capaci-
tor(s) is provided in each network to help maintain a solid Vtt
level within the package, mitigating any potential cross talk or
feedthrough effects. The 804 circuit also contains a 0.1 µF
R
R
R
and R are calculated using the following equations:
2
1
2
1
= (V /V )*Z
ee tt
2
o
= (R *V )/(V -V )
tt ee tt
For a 10K ECL supply voltage of -5.2V and V of -2V:
R
R
tt
= 2.6*Z
= R /1.6
2
2
1
o
capacitor for bypassing the V supply.
ee
For a 100K ECL supply voltage of -4.5V and V of -2V:
tt
R
R
= 2.25*Z
2
1
o
= R /1.25
2
Parallel Termination Technique
Thevenin Equivalent Parallel Termination
Parallel termination in ECL applications uses -2.0 volts as the
terminating voltage. This represents a disadvantage since a
separate V power supply must be available (V = -5.2 volts,
tt
ee
V
= -2.0 volts). For systems in which a separate -2.0 volt sup-
tt
ply is not available, the use of a Thevenin equivalent arrange-
ment, although resulting in higher power consumption, provides
a convenient solution.
Thevenin Equivalent Parallel Termination Technique
Bourns 803 and 805 conformal coated SIP resistor capacitor
networks are designed to terminate 8 transmission lines using
the Thevenin equivalent parallel termination technique. Again, a
0.1 µF capacitor is provided to help maintain a solid Vee level
within the package, mitigating any potential cross talk or
feedthrough effects. The 803 is designed for use with 10K ECL
whereas the 805 is designed for use with 100K ECL.
References:
1. Blood, W.R., MECL System Design Handbook, Motorola,
Inc., 1983.
2. F100K ECL Data Book, Fairchild Semiconductor Corp.,
1986.
3. MECL Device Data, Motorola, Inc., 1987.
4. ECLinPS Data, Motorola, Inc., 1987.
Specifications are subject to change without notice.
325
Dual Terminator Resistor Network
The Dual Terminator (or Thevenin equiva-
lent) Network is commonly used for TTL
dual-line termination and pulse squaring or
ECL line terminations. In ECL line termina-
tor, R2 functions as an emitter pull-down
resistor and is normally tied to the most
negative supply voltage to provide proper
line currents. R1 is normally tied to ground
and functions as the termination resistor
and in parallel with R2 provides the charac-
teristic impedance of the transmission line.
This results in a zero reflection coefficient
of this line to eliminate reflections.
R1 is now guarded and an accurate
measurement can be made.
Continue this testing scheme for the
remainder of the R2 resistors, always
guarding pin 8.
To test the second R1 resistor, connect the
measurement leads between pin 8 and pin
3. Connect the guard to pin 1 and make
the resistance measurement.
An example of the type of ohmmeter to be
utilized that incorporates a guarded mea-
surement capability. It must be noted that
guarded measurements using ohmmeters
are satisfactory measurements up to a ratio
of about 10:1 between R1 and R2. Above
a 10:1 ratio, accuracy is degraded and
measurements can be incorrect because of
inadequate guarding capability of the
equipment.
Continue this testing scheme for the
remainder of the R1 resistors, always
guarding pin 1.
Test R2 Values
The Dual Terminator circuit is available in both
SIP and DIP configurations, as shown below.
To test the first R2 resistor, connect the
ohmmeter measurement leads between pin
1 and pin 2. Connect the guard lead to pin
8. The first R2 resistor is now guarded and
an accurate measurement can be made.
Unguarded Resistance Measurements
In the case where no guarded ohmmeter is
available, the individual resistors can be
evaluated by comparing the unguarded
resistance measurement to the theoretical
value of the equivalent series-parallel
circuit and determining the percent of error
of each resistor.
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
R2
R1
To test the second R2 resistor, connect the
ohmmeter measurement leads between pin
1 and pin 3. Connect the guard lead to pin
8 and make the resistance measurement.
1
8
SIP
Example:
Network 4608X-104-221/331 where R1 values are 220W and R2 values are 330Ω.
Rp = Parallel Resistance of Remaining Circuit (See diagram below.)
RE = Equivalent Series - Parallel Resistance Seen by Unguarded Meter
16
R1
9
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R1 (R2 + Rp)
=
=
220 (330 + 110)
=
146.67Ω
R1
R1
RE
= (P8-P2) =
= (P1-P2) =
R1
R2
R1 + (R2 + Rp)
220 + (330 + 110)
2% Tolerance ≈ ±1.96Ω*
2
R2
R1 (R2 + Rp)
R1 + (R2 + RP)
3300 (220 + 110) = 165Ω
330 + (220 + 110) 2% Tolerance ≈ ±1.65Ω*
RE
1
8
DIP
Rp = 550 = 110Ω
Testing of Dual Terminators
5
Since the Dual Terminator circuit has many
resistors in parallel, a direct pin-to-pin
measurement for the values of R1 and R2
can be made using an ohmmeter with
guard capabilities.
The function of the guard pin is to apply and
equal voltage across the adjacent
(parallel) resistance path. When applied,
current flow is eliminated allowing an accu-
rate measurement of the resistor under test.
Using the 8-pin SIP network shown, the
testing method would be as follows:
Utilization of these formulas will enable you to determine the equivalent unguarded
resistance to be expected from any values of R1 and R2 for a Dual Terminator Network.
Test R1 Values
2
To test the first resistor, connect the ohm-
meter measurement leads between pin 8
and 2. Connect the guard lead to pin 1.
*2% tolerance ≈ (RE
R1
)
X .02 = 1.96Ω
R1
Specifications are subject to change without notice.
326
SCSI Applications
AMERICAN NATIONAL STANDARD X3 131-1986
Peripheral devices such as magnetic-disks, printers,
optical-disks, and magnetic-tapes.
COMPUTER
CONTROLLER
SCSI BUS
. . . .
SINGLE INITIATOR, SINGLE TARGET
COMPUTER
CONTROLLER
SCSI BUS
. . . .
. . . .
CONTROLLER
SINGLE INITIATOR, MULTIPLE TARGET
COMPUTER
COMPUTER
CONTROLLER
CONTROLLER
CONTROLLER
CONTROLLER
CONTROLLER
SCSI BUS
. . . .
. . . .
. . . .
. . . .
. . . .
COMPUTER
MULTIPLE INITIATOR, MULTIPLE TARGET
BLOCK DIAGRAM OF SCSI SYSTEM
Use Bourns Networks to:
Termination Of The SCSI Bus
•
•
•
•
Provide the terminating resistors required for SCSI
implementation.
Optimize signal transmission by eliminating overshoot
and ringing.
Minimize space and routing problems, and reduce
manufacturing cost per installed resistive function.
Increase board yields and reliability by reducing
component count.
The Small Computer System Interface follows American
National Standard which provides the mechanical, electrical, and
functional requirements for an input/output bus to connect small
computers with a variety of peripheral devices. The most com-
mon application of this bus is to connect small computers with
disk drive (mass storage) units.
The primary resistor network application in SCSI busses is line
termination. The termination method is specified in ANSI
X3.131-1986 as either a Thevenin equivalent dual terminator
Specifications are subject to change without notice.
327
SCSI Applications
configuration (Fig. 1) for the single-ended implementation of the
SCSI bus, or a three-resistor terminator configuration (Fig. 2) for
the differential-line version of the SCSI bus.
matches the Thevenin equivalent of this resistor combination,
that is, 132 ohms. In the differential case, a characteristic imped-
ance of 122 ohms would be ideal.
In addition, it is inadvisable to mix different, unmatched cables
in the same bus. Such a practice will result in undesirable signal
reflections which may compromise the integrity of the data transfer.
Bourns supplies a number of resistor network models designed
for both SCSI and SCSI-2 termination .
+ 5V
330Ω
+ SIGNAL
- SIGNAL
GROUND
+ 5V
220Ω
150Ω
330Ω
+ SIGNAL
GROUND
Cable A (SCSI and SCSI-2) Single-ended
330Ω
220Ω
132Ω
Dual
Terminators
FIGURE 1.
FIGURE 2.
330Ω
5V
3V
In the single-ended configuration, the SCSI bus is defined for
lengths up to 6 meters, while the differential-line version pro-
vides for better commonmode noise immunity over cable
lengths up to 25 meters.
The signal assignments on the single-ended SCSI bus include
8 data lines, 1 parity line, and 9 control lines. Each of these 18
lines must be terminated, and it is convenient to do this using a
resistor network which contains all of the required resistors. An
additional 32 lines are ground or power lines which do not
require termination (there are 50 lines total in the cable). In a
similar fashion, the differential configuration of the SCSI bus
uses 18 pairs of lines, each requiring termination.
As of 1989, an extended version of the SCSI standard has
been in develop-ment by ANSI, called the SCSI-2 bus. This new
standard allows for 16-bit to 32-bit wide data transfers, while
also allowing a higher bit transfer rate.
Two cables are defined in the SCSI-2 bus, termed Cable A and
Cable B, where Cable B is optional (“wide SCSI” option). Cable
A is no different than the single cable used in the original SCSI
bus, and therefore uses the same number and types of resistive
terminators (i.e., dual terminators for single-ended and triple ter-
minators for differential).
NO.
REQ’D.
PACKAGE
BOURNS P/N
DIP
1
2
3
3
4120R-3-221/331
CSIP*
CSIP*
MSIP*
4611X-104-221/331
4608X-104-221/331
4308R-104-221/331
Differential:
PACKAGE
NO.
REQ’D.
BOURNS P/N
4120R-820-1
4120R-820-2
4116R-8-2
DIP
DIP
CSIP*
MSIP
2
3
3
5
4614M-8-2
4310M-820-2
4120P-830-2
4420P-820-1
4420P-820-2
4420P-830-2
Cable B, however, is a 68-line cable, of which 29 lines (single-
ended) or 29 line-pairs (differential) require termination.
Cable B (SCSI-2 Only) Single-ended
NO.
PACKAGE
Application Guidelines
BOURNS P/N
REQ’D.
The principles of transmission-line theory apply to SCSI termi-
nators, and therefore for proper operation their placement must
be restricted to the ends of the bus and nowhere else. This
implies that the terminators should be placed as close to the
SCSI devices as possible. It is permissible to place the termina-
tor inside the SCSI device, but only if that device is located at
the end of the bus.
For disk drive applications, SCSI terminators must be present
on the host adapter card and at the disk drive end as well. Many
disk drive manufacturers have opted to design in removable
SCSI terminators into their units to account for the possibility
that their unit may not be the one at the end of the cable. For
these manufacturers, the combination of a resistor network in a
through-hole version plus a matching socket represents the only
(and expensive) alternative.
DIP
2
3
4
4
4118R-3-221/331
CSIP*
CSIP*
MSIP*
4612X-104-221/331
4610X-104-221/331
4310R-104-221/331
Differential:
PACKAGE
NO.
REQ’D.
BOURNS P/N
DIP
DIP
CSIP*
MSIP*
4
5
5
8
4118R-820-2
4116R-8-2
4614M-820-2
4310M-820-2
*MEDIUM PROFILE (.250” SEATED HEIGHT) AND HIGH PROFILE (.350” SEATED
HEIGHT) ARE AVAILABLE BY PLACING THE LETTER “M” OR “H,” RESPECTIVELY, IN
THE FIFTH POSITION OF THE PART NUMBER.
A final consideration is the cable itself. Since the terminators
are comprised of 220 ohm and 330 ohm resistors (single-ended),
the cable ideally should have a characteristic impedance which
Specifications are subject to change without notice.
328
SCSI Applications Representative Terminator Schematics
Representative Terminator Schematics
20
19
18
17
16
15
14
13
12
11
R2 = 330Ω
R1 = 220Ω
R1
R2
R3
1
11
4611X-104-221/331
1
2
3
4
5
6
7
8
9
10
830 ELECTRICAL SCHEMATIC
20
11
4120R-830-1
4420P-830-1
R1 = 270Ω
R2 = 820Ω
R3 = 180Ω
4120R-830-2
4420P-830-2
R1 = 330Ω
R2 = 150Ω
R3 = 330Ω
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1
R1 = 220Ω
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2
R2 = 330Ω
R1
Abbreviations
R2
1
10
DIP
= Dual In-Line Package
4120R-3-221/331
MSIP = Molded Single In-Line Package
CSIP = Conformal Coated Single In-Line Package
PCC = Plastic Chip Carrier
SOM = Small Outline Surface Mount Package,
Medium Body (.220”)
SOL = Small Outline Surface Mount Package,
Wide Body (.300”)
16
SON = Small Outline Surface Mount Package,
Narrow Body (.154”)
R1 = 330Ω
R2 = 150Ω
R3 = 330Ω
References
1. “Small Computer System Interface”, (ANSI X3.131-1986),
American National Standards Institute Inc., 1986.
1
2. “Small Computer System Interface 2” (working draft proposal), Revision 5,
American National Standards Institute Inc., August 9, 1988.
3. Standard Products Data Book, NCR Corporation, 1988.
4116R-8-2
*MEDIUM PROFILE (.250” SEATED HEIGHT) AND HIGH PROFILE (.350” SEATED
HEIGHT) ARE AVAILABLE BY PLACING THE LETTER “M” OR “H,” RESPECTIVELY, IN
THE FIFTH POSITION OF THE PART NUMBER.
20
19
18
17
16
15
14
13
12
11
R1
R2
R3
1
2
3
4
5
6
7
8
9
10
820 ELECTRICAL SCHEMATIC
4120R-820-1
4420P-820-1
R1 = 270Ω
R2 = 820Ω
R3 = 180Ω
4120R-820-2
4420P-820-2
R1 = 330Ω
R2 = 150Ω
R3 = 330Ω
Specifications are subject to change without notice.
329
R/2R Ladder Networks
R/2R Ladder Networks are available in both DIP and SIP
(Molded or Conformal) configurations.
taken from the R/2R ladder. This terminal (OUT) is commonly
used to drive an operational amplifier. R (the terminating resis-
T
tor) is always connected to ground.
OUT
16
RT
9
Standard R/2R Ladder Networks have a resistance tolerance of
±2.0% (±1.0% available on all but low profile SIPs).
15
14
13
12
11
10
16-PIN
8-BIT
DIP
2R
2R
R
R
R
R
R
R
R
Standard R/2R Ladder Networks
Availability is as follows:
2R
2R
2R
2R
2R
2R
2R
DIP/SMD
SIP-CONFORMAL
SIP MOLDED
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
PIN
BIT
1
14 Pin - 7 Bit
16 Pin - 8 Bit
6 Pin - 4 Bit
7 Pin - 5 Bit
8 Pin - 6 Bit
9 Pin - 7 Bit
10 Pin - 8 Bit
11 Pin - 9 Bit
12 Pin -10 Bit
14 Pin -12 Bit
6 Pin - 4 Bit
8 Pin - 6 Bit
10 Pin - 8 Bit
MSB
LSB
10-PIN
8-BIT
SIP
R
R
R
R
R
R
R
2R
2R
2R
2R
2R
2R
2R
2R
2R
2
3
2
4
3
5
4
6
5
7
6
8
7
9
10
RT
PIN 1
BIT OUT
1
8
MSB
LSB
Resistor Power Ratings @ 70˚ C
Low Profile SIP & DIP .................................................... .125W
Medium Profile SIP ........................................................ .170W
High Profile SIP .............................................................. .200W
The R/2R Ladder Network is commonly used for Digital to
Analog (D/A) conversions and Analog to Digital (A/D) conversion
by successive approximations. The bits of the ladder are the
points at which input signals are presented to the ladder and
the output terminal (OUT) is the point at which the output is
How To Order R/2R Ladder Networks
41 16 R - R2R - 503
Model
Resistance/Capacitance Code
(For value of R). 2R is double this value.
• First 2 digits are significant.
• Third digit represents the number
of zeros to follow.
(41 = Molded DIP)
(43 = Molded SIP)
(44 = Wide Body SMD)
(46 = Conformal SIP)
(48 = SMD)
Number of Pins
Physical Configuration
(R = Low Profile - Molded)
(X = Low Profile - Conformal)
(M = Medium Profile)
Electrical Configuration
• R2R = R/2R Ladder Network
(H = High Profile)
(P = Medium Body SOIC)
Specifications are subject to change without notice.
330
DRAM Applications
ADDRESS
ADDRESS
DYNAMIC
MEMORY
CONTROL
RAS
CAS
CPU
WE
DYNAMIC
MEMORY
ARRAY
TIMING
CONTROLLERS
SYSTEM DATA BUS
BLOCK DIAGRAM OF DRAM SYSTEM
EFFECT OF DAMPING RESISTOR
Use Bourns Networks To:
•
Match impedance between memory driver and the DRAM
array.
WITHOUT
DAMPING
RESISTOR
•
•
Minimize reflections and ringing in DRAM inputs.
Prevent undershoot of RAS, CAS, and WE signals which
may result in latch-up of DRAM inputs
WITH
DAMPING
RESISTOR
•
Improve system performance by allowing faster setting
times for DRAM inputs.
Courtesy of B. Narasimhan and J. Shaffer, Micron Techology Corporation.
Need For Damping
Increased settling time due to ringing reduces system perfor-
mance because the design has to allow for the settling delay
before sampling the signal. Undershoot, by bringing the input
voltage below 0 volts, can damage the driver IC as well as alter
the DRAM’s internal address register contents, causing potential
loss of data.
The address lines (RAS, CAS) and control lines (WE) of
dynamic RAM arrays are driven in parallel, causing significant
loading on the driver of the DRAM arrays. Each DRAM control
input (WE) has capacitive loading between 5pF to 7pF, while
each address line input has about a 10pF load.
Thus each DRAM input can be modeled as a transmission line
with distributed inductance and capacitance. If not properly ter-
minated, signal reflections and ringing on the line will result,
adversely affecting the performance of the memory system. The
effects on signal transitions will be:
V
COMPARISON OF UNDERSHOOTS
1
"HIGH"
LOGIC
LEVEL
WITHOUT
1. Increased settling time delay on low-to-high transitions.
2. Voltage undershoot on high-to-low transitions.
DAMPING RESISTOR
WITH
DAMPING RESISTOR
t
1
t
2
t
1
- TIME TO ACCEPTABLE "LOW" LOGIC LEVEL FOR
DRIVER WITHOUT DAMPING RESISTOR
t
2
- TIME TO ACCEPTABLE "LOW" LOGIC
LEVEL WITHDAMPING RESISTOR
Specifications are subject to change without notice.
331
DRAM Applications
For example, for a trace with the following characteristics:
Application Guidelines
e
=
=
=
=
=
=
=
5 (for G10 glass epoxy)
30 mils
Termination of address and control lines is typically accom-
plished with low-valued resistors placed in series at the driver
output. Selection of the proper resistance value is performed in
two steps: approximation of the proper resistance using trans-
mission line equations, and secondly, through trial and error,
changing the resistance value to account for real world devia-
tions such as PCB vias and bends.
r
h
w
15 mils
t
then, Z
T
3 mils
85 ohms
o
The appropriate transmission line equations are as
follows:
0.15 ns/in.
1.76 pF/in.
d
Z
=
characteristic line impedance
(microstrip)
C
o
o
Z ’ = 38 ohms
o
87
5.98h
T ’ = 0.35 ns/in.
d
=
In
ohms
( )
√ er + 1.41
propagation delay of the line
0.8w + t
Thus on a theoretical basis, the design will require the resis-
tance of 38 ohms to match the trace impedance of the PCB.
However, the actual impedance will differ from this theoretical
value due to the non-ideal characteristics of the PCB trace
geometry (i.e., bends, curves and vias in the trace), as well as
the manufacturing variations inherent in the components and
materials. Therefore, a trial-and-error process must be employed
in order to optimize the value of the damping resistor.
The procedure involves selecting various values around the
calculated value and observing the resulting waveforms on an
oscilloscope. Choose the value that best balances the reduction
in ringing/reflection and the reduction in speed: a large resis-
tance value provides better damping, but will also add delay by
slowing the edge rate. Typically, resistance values for memory
damping will be in the range of 10 ohms to 50 ohms, with the
most common values in the 20 ohm to 30 ohm range.
Since memory damping is a type of series termination, distrib-
uted loading along the line will not be possible. That is, the
entire lumped load must be located at the end of the line, with
no other loads along the signal path. This will guarantee that the
waveform will remain undisturbed as it travels along the line. For
related reasons, the placement of the series damping resistor
should be as close to the driving device as possible.
T
=
=
=
=
d
1.017 √0.475e + 0.67 ns/in.
trace capacitance = 1000 (T /Z ) pF/in.
r
C
o
d
d
o
C
equivalent trace capacitance associated with
each DRAM. It takes 0.5 inch to interconnect
one DRAM.
=
3.5pF/0.5 in. = 7 pF/in.
Z ’ = effective characteristic impedance, accounting
o
for capacitive loading of the DRAMs.
Zo
=
√1 + C /C
d
o
T ’ = effective propagation delay, accounting for the
d
capacitive loading of the DRAMs
T
=
=
T √1 + C /C
relative dielectric constant of the PCB’s glass
d
d
d
o
where e
r
epoxy layer
h
w
t
=
=
=
distance from the trace to the ground plane
width of trace
thickness of trace
(Ref. MMI Systems Design Handbook, pp. 10-5 and 10-6.)
Specifications are subject to change without notice.
332
DRAM Applications
Bourns Networks For Memory Damping
Bourns can supply a wide range of standard resistor networks
for memory damping applications. Standard resistance values
(see below) are normally in stock. However, any intermediate
value within the range 10 ohms to 10 megohms can be sup-
plied.
The following package and pin count options are available:
...
1
4
6
10
12
14
16
1
9
R
R
R
R
R
R
R
R
8
NUMBER OF LINES
3
2
4
5
MSIP* 4304M-102-RC 4306R-102-RC 4308R-102-RC 4310R-102-RC
CSIP* 4604X-102-RC 4606X-102-RC 4608X-102-RC 4610X-102-RC
PCC
4210P-102-RC
6
MSIP*
CSIP* 4612X-102-RC
PCC
7
8
9
10
DIP
4114R-1-RC
4116R-1-RC
4118R-1-RC
4120R-1-RC
CSIP* 4614X-102-RC
SOM
SOL
SOL-J
PCC
4814P-1-RC
4816P-1-RC
4416P-1-RC
4416J-1-RC
4420P-1-RC
4420J-1-RC
4420P-102-RC
*MEDIUM PROFILE (.250” SEATED HEIGHT) AND HIGH PROFILE (.350” SEATED
HEIGHT) ARE AVAILABLE BY PLACING THE LETTER “M” OR “H,” RESPECTIVELY, IN
THE FIFTH POSITION OF THE PART NUMBER.
Specifications are subject to change without notice.
333
Thin Film Applications
Thin film is the preferred generic description for the field of
micro-electronics in which conductive, resistive, and/or insulat-
ing films are deposited or sputtered on a ceramic or other insu-
lating substrate. The films can be deposited either in a required
pattern or as a complete film layer and photoprocessed and
etched to form the required pattern.
The term “thin film” is derived from the fact that the deposited
films are of the order of a few micrometers in thickness com-
pared with the 10 to 50 micrometers for thick film. Often, thin
film conductors are plated to improve conductivity.
finer lines and traces than thick film processes. Thin film is very
appropriate for high density and high frequency applications.
Thick and thin film technologies are well suited for low to medi-
um volume custom circuits. Thick film has the advantages of
lower cost (both of tooling up new designs and of production
runs), of being able to handle more power, and of being able to
service a higher range of ohmic values. Thin film has the advan-
tages of tighter absolute and ratio tolerances and more environ-
mentally stable components with lower noise and tighter TCR
than thick film.
Thin film technology is used wherever precision resistors are
needed.
Thin Film Applications
Thin film resistor networks typically find application in the ana-
log world. The number one use of thin film is in controlling the
gain on operational amplifiers. Some other applications are as a
stable reference, stable voltage division, stable feedback loops
and analog to digital or digital to analog conversion. These net-
works may also be used for “wire-OR” pull-up, ECL output pull-
down, TTL input pull-down, power down pull-up, open collector
pull-up, digital pulse squaring, current summing amplifiers, TTL
unused gate pull-up, TTL/MOS interfacing, coding and decod-
ing, and telemetry.
Differential Op-amp Input
Differential Op Amps are needed in electrically dirty environ-
ments to reject noise transients that are picked up by wires. The
differential Op Amps subtracts the noise out of the two signal
wires.
Thin film tracking capabilities are needed in these circuits to
ensure that the input resistors do not affect the contents of the
incoming signal.
Thin film resistors in a network form offer additional benefits in
performance. The resistors in a network are more closely
matched in resistance and TCR and actually see reduced differ-
entials of temperature in the end use application. These com-
bine to provide improved tracking in networks. This improved
tracking would be an advantage to the instrumentation and
industrial control markets.
Potential target markets for thin film include harsh environmen-
tal conditions as well as the need for precision resistors. The
improved ability to be stable at extended temperatures and the
increased ability to handle moist environments are both benefits
of the thin film offering. Target applications such as automotive
and telecommunications will benefit from these capabilities.
R1
1M
R5
975K
-1M
3
4
1
2
50K
9V
R2
20K
R6
25K
OPTIONAL
CMRR
TRIM
2
7
LT1012A
4
-
6
OUT
R3
1M
3
COMMON
MODE
INPUT
+1M 7
6
5
+
R4
19.608K
±250V
Thin Film Vs. Thick Film
-9V
The basic distinction between thick film and thin film is the
method of deposition of the metallization. In thick film, specially
formulated pastes are applied and fired onto a substrate. The
pastes are usually applied with a silk screen method and the
substrate is of 96% alumina ceramic. In thin film, a layer of met-
allization is sputtered onto a substrate and then a pattern is
etched into the previously applied metal layer, the substrates are
often 99.5% alumina ceramic, silicon, or glass. Thick film is an
additive process where layers of termination and resistor materi-
al are added to the substrate, while thin film is a subtractive
process where the unwanted material is etched away in a suc-
cession of selective photoetching processes. The use of photo-
lithographic processes to form thin film patterns produce much
TYPICAL PERFORMANCE:
COMMON MODE REJECTION RATIO = 74dB (RESISTOR LIMITED)
WITH OPTIONAL TRIM = 130dB
OUTPUT OFFSET (TRIMMABLE TO ZERO) = 500µV
OUTPUT OFFSET DRIFT = 10µV/°C
INPUT RESISTANCE = 1M (CM)
2M (DIFF)
BANDWIDTH = 13KHz
BATTERY CURRENT = 370µA
±250V Common Mode Range Instrumentation Amplifier (A =1)
v
Specifications are subject to change without notice.
334
Thin Film Applications
THICK FILM VS. THIN FILM
STANDARD VS. PRECISION
Voltage Divider
Voltage dividers are used to step down voltages for analog
processing. Applications are found in multi-meters, oscillo-
scopes, oscillator stage of voltage control oscillators, etc. The
application needs precise resistors to ensure that errors are not
added during the conversion process.
Thick Film
Circuits
Thin Film
Circuits
Parameter
Resistance
3 Ω to 20MΩ
10Ω to 100KΩ
Resistance Tolerance
.5% , 1% , 2% , 5% .1% , .2% , .5%
V
IN
TCR
±100ppm/°C
100ppm/°C
±25ppm/°C
5ppm/°C
9M
900K
90K
9K
TCR Tracking
V
IN
Operating Temperature
Max. Operating Voltage
Resistor Power
-55°C to +125°C -55°C to +125°C
=
=
=
=
V
OUT
1
10
100 volts
50 volts
.125W to .5W
.1W to .2W
V
IN
100
V
OUT
2
V
IN
1000
V
OUT
3
V
IN
10,000
V
OUT
4
1K
Data Conversion
Data converters are used to convert digital data to analog sig-
nals or vice versa. The precision of the high bit affects the over-
all precision of the data convertor. Thus, thick film resistors are
used in the lower bits while the thin film or bulk foil resistors are
used in the high order bits.
R
R
F
E
REF
E
OUT
E
REF
N 1
R
R
2R
2
PARALLEL CODE
INPUT DATA WORD
Parallel bit conductance switching D/A converter.
Specifications are subject to change without notice.
335
Soldering And Cleaning Processes
This application note is designed to provide step-by-step processing recommendations. It covers
the popular soldering process currently in use and provides recommendations and cautions for
each step. Since many variations of time, temperature, processes, cleaning agents and board
types in use, you will want to verify your own system. Bourns does not recommend the backside
mounting of passive components.
The process steps, recommendations and cautions are based on Bourns surveys of users, equip-
ment manufacturers and materials suppliers. No warranty expressed or implied is made in regards
to the following recommendations.
1 2 3 4 5
Solder Paste
Printing
Adhesive
Application
Network
Placement
Adhesive
Cure
Flux
Application
Reflow; Convection,
IR and Vapor Phase
Flow (Wave)
GENERAL
GENERAL
GENERAL
GENERAL
GENERAL
Heat/time cure should be
accomplished using either
an infrared radiation or a
convection oven.
Use the optimum
The adhesive must hold the
unit in correct orientation
upon placement and main-
tain the correct position
during any physical han-
dling before the final sol-
dering process.
Use pick-and-place equip-
ment with a vacuum nozzle
ID that allows adequate
suction to pick the unit out
of the pocket cavity.
Use the correct flux to
remove surface oxides,
prevent re-oxidation and
promote wetting.
solder paste for the pattern,
printing process, and sol-
der joint quality.
RECOMMENDED
Cure using the temperature
profile specified by the adhe-
sive manufacturer.
RECOMMENDED
RECOMMENDED
RECOMMENDED
Typical solder paste alloy is
63Sn/37Pb. RMA,No-Clean
or Halide Free Water
Soluble fluxes should be
used.
RMA (Rosin Mildly
Activated) flux or Halide
Free Water Soluble flux is
recommended.
Ensure nozzle inside diam-
eter and vacuum levels are
adequate to maintain suc-
tion and part alignment.
RECOMMENDED
To assure positional stabili-
ty, place a single dot of
epoxy under the unit.
CAUTION
Use sufficient cure time to
ensure complete adhesive
transition from fluid to solid.
CAUTION
Avoid fluxes with Halide
activators.
CAUTION
CAUTION
Ensure parts are placed so
that all leads are centered
on the solder pads.
Since solder paste usually
contains a high percentage
of activators, you must
ensure adequate cleaning
to remove all residues.
Consult your solder paste
supplier for cleaning meth-
ods. When cleaning addi-
tives are needed, only
Care should be taken to
assure the placed units are
not exposed to temperatures
in excess of the manufactur-
er's maximum.
Epoxy
Align the leads with the sol-
der belt direction of travel
to avoid the part body cre-
ating a thermal shadowing
effect.
CAUTION
Use sufficient adhesive to
assure stability through the
cure process.
Do not exceed the maximum
temperature rating of the
component.
those that are Halide Free
should be used.
Excessive placement force
to the part should be avoid-
ed to minimize the risk of
package damage.
Avoid overflow of epoxy
onto solder pads and termi-
nal areas.
Excessive curing before
placement may not allow
full seating of the part
causing incomplete solder
connections.
Specifications are subject to change without notice.
336
Soldering/Cleaning Methods
FLOW
REFLOW
Hot Air,
Infrared
(Solvent)
X
Vapor Phase
Wave
Wave
Process Step
(Solvent)
X
(Solvent)
(Aqueous)
Material
RMA
1. Solder Paste Printing
2. Adhesive Application
3. Switch Placement
4. Adhesive Cure
X
X
X
X
X
X
X
Epoxy
X
X
These are the common
methods, materials and
maximum temperature/
time parameters for
soldering and cleaning
processes:
5. Flux Application
5. Flux Application
6. Solder (Reflow)
7. Solder (Flow)
Rosin
X
X
Organic Acid
63/37 Sn/Pb
63/37 Sn/Pb
ODS Free
X
X
X
X
X
X
8. Wash (Solvent)
9. Wash (Aqueous)
High Pressure Fluids
Ultrasonics
X
X
DI H2O; Detergent
X
X
X
Max. Temp.(°C)/Time (Seconds)
240/30
215/180
260/5
260/5
6 7 8 9
Solder
Solder
Wash
Wash
Reflow; Convection,
IR and Vapor Phase
Flow (Wave)
Solvent
Aqueous
GENERAL
GENERAL
GENERAL
GENERAL
Preheat sufficiently using both time
and temp. to bring the flux to activa-
tion and minimize thermal shock.
Consult your solder paste supplier for
the recommended profile.
For maximum component reliability
and performance, minimize the time
of temp. exposure above 200°C.
Use solvent cleaning primarily
for nonpolar contaminants
such as rosin based flux
residues.
Use aqueous cleaning primarily
for polar contaminants such as
organic flux residues.
RECOMMENDED
Typical alloy is Sn63/Pb37. A typical
wave solder zone profile is 245˚C for
5 sec.
RECOMMENDED
RECOMMENDED
Use any suitable washing sol-
vents that meet ODS require-
ments.
Use De-ionized or Reverse
Osmosis water with multistage
rinsing. Post bake at 100˚C for
30 minutes to remove any resid-
ual moisture.
RECOMMENDED
Typical IR/Convection profile.
PRE-HEATING SOLDERING GRADUAL COOLING
PRE-HEATING SOLDERING GRADUAL COOLING
CAUTION
Limit excessive direct spray
pressure to 60 psi.
(in air)
(in air)
(in air)
(in air)
CAUTION
Limit excessive direct spray
245°C
200°C
200°C
230°C
pressure to 60 psi.
100°C
0°C
100°C
0°C
Allow the assembly to suffi-
ciently cool prior to the wash-
ing operation for minimized
thermal stress.
ONE MINUTE
MIN.
Allow the assembly to sufficient-
ly cool prior to the washing oper-
ation for minimized thermal
stress.
5 SECOND
MAX.
ONE MINUTE
MIN.
20 SECOND
MAX.
Use convection or Vapor Phase when
possible and minimize the time above
reflow temperature.
CAUTION
Always preheat before the soldier
wave using the temperature for flux
activation recommended by the man-
ufacturer.
CAUTION
Do not exceed time and temperature
reflow profile of 240°C for 30 sec. for
Hot Air/IR reflow and 215°C for 3
minutes for vapor phase reflow.
Board Rework Technique
Do not exceed 240˚C peak tempera-
ture for dual wave solder process
with a flow zone totaling 5 seconds.
RECOMMENDED
Hot air reflow technique is pre-
ferred. Use No Clean or Rosin
based fluxes only, OA fluxes are
recommended.
Minimize thermal shock by limiting
temperature ramps to 3°C/sec. and by
stabilizing board and component tem-
perature during preheating.
Minimize thermal shock by limiting
temperature ramps to 3˚C/sec. and by
stabilizing board and component
temperature during preheating.
GENERAL
CAUTION
Excessive and/or repeated high
temperature exposure may
affect the component perfor-
mance and reliability.
Avoid the use of wave soldering
or soldering irons as a rework
technique. Avoid repeated and
excessive temperature exposure.
Specifications are subject to change without notice.
337
338
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