230619803758 [VISHAY]
RESISTOR, METAL FILM, 2 W, 5 %, 250 ppm, 7.5 ohm, THROUGH HOLE MOUNT, AXIAL LEADED, ROHS COMPLIANT;
| 型号: | 230619803758 |
| 厂家: | 
VISHAY |
| 描述: | RESISTOR, METAL FILM, 2 W, 5 %, 250 ppm, 7.5 ohm, THROUGH HOLE MOUNT, AXIAL LEADED, ROHS COMPLIANT 电阻器 |
| 文件: | 总16页 (文件大小:218K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
PR01/02/03
Vishay BCcomponents
Power Metal Film Leaded Resistors
FEATURES
• High power in small packages (1 W/0207 size to
3 W/0617 size)
• Different lead materials for different applications
• Defined interruption behaviour
• Lead (Pb)-free solder contacts
• Pure tin plating provides compatibility with lead (Pb)-free
and lead containing soldering processes
DESCRIPTION
A homogeneous film of metal alloy is deposited on a high
grade ceramic body. After a helical groove has been cut in
the resistive layer, tinned connecting wires of electrolytic
copper or copper-clad iron are welded to the end-caps. The
resistors are coated with a red, non-flammable lacquer which
provides electrical, mechanical and climatic protection. This
coating is not resistant to aggressive fluxes. The
encapsulation is resistant to all cleaning solvents in
accordance with IEC 60068-2-45.
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
• All general purpose power applications
TECHNICAL SPECIFICATIONS
VALUE
DESCRIPTION
PR01
PR02
PR03
Cu-lead
0.33 Ω to 1 MΩ
FeCu-lead
Cu-lead
0.68 Ω to 1 MΩ
FeCu-lead
Resistance Range (2)
0.22 Ω to 1 MΩ
1 Ω to 1 MΩ
1 Ω to 1 MΩ
Resistance Tolerance and Series
1 % (E24, E96 series); 5 % (E24 series) (1)
Rated Dissipation, P70
:
R < 1 Ω
0.6 W
1 W
1.2 W
2 W
-
1.6 W
3 W
-
1 Ω ≤ R
1.3 W
2.5 W
75 K/W
Thermal Resistance (Rth)
135 K/W
75 K/W
115 K/W
250 ppm/K
60 K/W
Temperature Coefficient
≤
Maximum Permissible Voltage
(Umax. AC/DC)
350 V
500 V
750 V
Basic Specifications
IEC 60115-1
55/155/56
Climatic Category (IEC 60068-1)
Stability After:
Load (1000 h, P70
)
ΔR max.: (5 % R + 0.1 Ω)
ΔR max.: (3 % R + 0.1 Ω)
ΔR max.: (1 % R + 0.05 Ω)
Long Term Damp Heat Test (56 Days)
Soldering (10 s, 260 °C)
Notes
(1)
(2)
1 % tolerance is available for Rn-range from 1 R upwards
Ohmic values (other than resistance range) are available on request
R value is measured with probe distance of 24 mm 1 mm using 4-terminal method
•
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Document Number: 28729
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PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
PART NUMBER AND PRODUCT DESCRIPTION
PART NUMBER: PR02000201001JA100
P
R
0
2
0
0
0
2
0
1
0
0
1
J
A
1
0
0
WIRE
TYPES
PACKAGING (1)
MODEL/SIZE
VARIANT
TCR/MATERIAL
VALUE
TOLERANCE
SPECIAL
PR0100
PR0200
PR0300
0 = Neutral
Z = Value
overflow
1 = Cu 0.6
2 = Cu 0.8
3 = FeCu 0.6
4 = FeCu 0.8
0 = Standard
3 digit value
1 digit multiplier
MULTIPLIER
F = 1 %
J = 5 %
N4
N3
A5
A1
AC
R5
R2
L1
DC
K1
B1
PC
The 2 digits
are used for
all special
(Special)
parts.
7 = *10-3 2 = *102
8 = *10-2 3 = *103
9 = *10-1 4 = *104
0 = *100 5 = *105
1 = *101
00 = Standard
PRODUCT DESCRIPTION: PR02 5 % A1 1K0
PR02
5 %
A1
1K0
MODEL/SIZE
TOLERANCE
PACKAGING (1)
RESISTANCE VALUE
PR01
PR02
PR03
1 %
5 %
N4
N3
A5
A1
AC
R5
L1
DC
K1
B1
PC
R2
1K0 = 1 kΩ
4K75 = 4.75 kΩ
Notes
(1) Please refer to table PACKAGING for details
• The PART NUMBER is shown to facilitate the introduction of a unified part numbering system for ordering products
PACKAGING
AMMO PACK
REEL
BULK, DOUBLE KINK
PIECES
MODEL
TAPING
PIECES
CODE
A5
PIECES
CODE
PITCH
CODE
5000
1000
4000
5000
R5
Axial, 52 mm
A1
PR01
N4
17.8 mm
12.5 mm
1000
1000
L1
K1
Radial
Axial, 52 mm
Radial
1000
3000
A1
N3
5000
2000
R5
R2
PR02
PR03
17.8 mm
15.0 mm
1000
1000
L1
B1
Axial, 63 mm
Radial
500
AC
25.4 mm
20.0 mm
500
500
DC
PC
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PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
DIMENSIONS
L
1
Ø d
Ø D
L
2
Type with straight leads
DIMENSIONS - Straight lead type and relevant physical dimensions; see straight leads outline
Ø d
(mm)
Ø Dmax.
(mm)
L1 max.
(mm)
L2 max.
(mm)
TYPE
Cu
FeCu
-
PR01
PR02
PR03
2.5
3.9
5.2
6.5
8.0
0.58 0.05
0.78 0.05
0.78 0.05
10.0
16.7
12.0
19.5
0.58 0.05
0.58 0.05
P1 0.5
Ø D
P1 0.5
8 + 2
L1
L2
4.5 + 1
0
Ø d
b1
b2
S
Ø B
0.07
P2
3
Dimensions in millimeters
Type with double kink
DIMENSIONS - Double kink lead type and relevant physical dimensions; see double kinked outline
Ø d
(mm)
b1
(mm)
b2
(mm)
Ø Dmax.
(mm)
P1
(mm)
P2
(mm)
Smax.
(mm)
Ø B
(mm)
TYPE
LEAD STYLE
Cu
FeCu
Double kink
large pitch
1.10
1.45
0.58 0.05
0.58 0.05
17.8
12.5
17.8
15.0
25.4
22.0
17.8
12.5
17.8
15.0
25.4
20.0
2
2
2
2
2
2
0.8
0.8
0.8
1.0
1.0
1.0
+ 0.25/- 0.20
+ 0.25/- 0.20
PR01
2.5
3.9
5.2
Double kink
small pitch
1.10
+ 0.25/- 0.20
1.45
+ 0.25/- 0.20
-
0.58 0.05
0.58 0.05
0.78 0.05
0.58 0.05
0.78 0.05
Double kink
large pitch
1.10
+ 0.25/- 0.20
1.45
+ 0.25/- 0.20
0.78 0.05
PR02
PR03
Double kink
small pitch
1.30
+ 0.25/- 0.20
1.65
+ 0.25/- 0.20
-
Double kink
large pitch
1.10
+ 0.25/- 0.20
1.65
+ 0.25/- 0.20
0.78 0.05
-
Double kink
small pitch
1.30
+ 0.25/- 0.20
2.15
+ 0.25/- 0.20
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Power Metal Film Leaded Resistors
Vishay BCcomponents
PRODUCTS WITH RADIAL LEADS (PR01, PR02)
P2
P
H1
H
H0
L1
W0
L
W
P0
P1
D0
F
DIMENSIONS - RADIAL TAPING
SYMBOL
PARAMETER
VALUE
12.7
12.7
3.85
6.35
4.8
TOLERANCE
UNIT
mm
mm
mm
mm
mm
mm
mm
P
Pitch of components
Feed-hole pitch
1.0
P0
P1
P2
F
0.2
Feed-hole centre to lead at topside at the tape
Feed-hole center to body center
Lead-to-lead distance
0.5
1.0
+ 0.7/- 0
W
W0
Tape width
18.0
5.5
0.5
-
Minimum hold down tape width
Component height PR01
29
Max.
3.0
0.5
1
H1
mm
Component height PR02
29
H0
H
Lead wire clinch height
16.5
19.5
4.0
mm
mm
mm
mm
mm
Height of component from tape center
Feed-hole diameter
D0
L
0.2
-
Maximum length of snipped lead
Minimum lead wire (tape portion) shortest lead
11.0
2.5
L1
-
Note
• Please refer document number 28721 “Packaging” for more detail
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PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
MOUNTING
The resistors are suitable for processing on automatic
insertion equipment and cutting and bending machines.
MASS PER UNIT
MASS
(mg)
TYPE
MOUNTING PITCH
PR01 Cu 0.6 mm
PR01 FeCu 0.6 mm
PR02 Cu 0.8 mm
PR02 FeCu 0.6 mm
PR02 FeCu 0.8 mm
PR03 Cu 0.8 mm
PR03 FeCu 0.6 mm
PR03 FeCu 0.8 mm
212
207
504
455
496
1192
1079
1185
PITCH
TYPE
LEAD STYLE
mm
12.5 (1)
4.8
e
5 (1)
2
Straight leads
Radial taped
PR01
Double kink large pitch
Double kink small pitch
Straight leads
17.8
7
12.5
5
15.0 (1)
6 (1)
MARKING
The nominal resistance and tolerance are marked on the
resistor using four or five colored bands in accordance with
IEC 60062, marking codes for resistors and capacitors.
Radial taped
4.8
2
PR02
PR03
Double kink large pitch
Double kink small pitch
Straight leads
17.8
7
15.0
6
23.0 (1)
9 (1)
10
8
OUTLINES
The length of the body (L1) is measured by inserting the
leads into holes of two identical gauge plates and moving
these plates parallel to each other until the resistor body is
clamped without deformation (IEC 60294).
Double kink large pitch
Double kink small pitch
25.4
20.0
Note
(1) Recommended minimum value
FUNCTIONAL DESCRIPTION
PRODUCT CHARACTERIZATION
Standard values of nominal resistance are taken from the E96/E24 series for resistors with a tolerance of 1 % or 5 %.
The values of the E96/E24 series are in accordance with IEC 60063.
FUNCTIONAL PERFORMANCE
T
= 40 °C
= 40 °C
amb
T
70 °C
100 °C
amb
70 °C
1.00
3.00
2.25
1.50
0.75
P
(W)
P
100 °C
125 °C
(W)
0.75
0.50
0.25
125 °C
155 °C
155 °C
205 °C
250 °C
(°C)
T
(°C)
T
m
m
10
5.0
2.0 1.0 0.5
0.2 0.1 %
Δ
R
10
5.0
2.0 1.0
0.5
0.2 0.1 % ΔR
PR03 Drift nomogram
PR01 Drift nomogram
= 40 °C
T
amb
70 °C
Note
2.00
P
• The maximum permissible hot-spot temperature is 205 °C for
PR01, 220 °C for PR02 and 250 °C for PR03
(W)
100 °C
125 °C
1.50
1.00
0.50
155 °C
220 °C
(°C)
T
m
10
5.0
2.0 1.0
0.5
0.2 0.1 %
ΔR
PR02 Drift nomogram
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Power Metal Film Leaded Resistors
Vishay BCcomponents
The power that the resistor can dissipate depends on the operating temperature.
P
max.
(%P
)
rated
100
50
0
- 55
0
50
70
100
155
T
(°C)
amb
Maximum dissipation (Pmax.) in percentage of rated power as a function of the ambient temperature (Tamb
)
Derating
103
Pmax.
(W)
102
= 1000
tp/ti
500
200
100
50
20
10
10
1
5
2
10-1
10-6
10-5
10-4
10-3
10-2
10-1
1
ti(s)
PR01 Pulse on a regular basis; maximum permissible peak pulse power (Pmax.) as a function of pulse duration (ti)
1200
Umax.
(V)
1000
800
600
400
200
0
10-6
10-5
10-4
10-3
10-2
10-1
1
(s)
ti
PR01 Pulse on a regular basis; maximum permissible peak pulse voltage (Umax.) as a function of pulse duration (ti)
Pulse Loading Capabilities
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Power Metal Film Leaded Resistors
Vishay BCcomponents
103
Pmax.
(W)
tp
/
ti = 1000
500
102
10
200
100
50
20
10
5
2
1
10-1
10-6
10-5
10-4
10-3
10-2
10-1
1
(s)
ti
PR02 Pulse on a regular basis; maximum permissible peak pulse power (Pmax.) as a function of pulse duration (ti)
1700
Umax.
(V)
1500
1300
1100
900
700
500
10-6
10-5
10-4
10-3
10-2
10-1
1
ti (s)
PR02 Pulse on a regular basis; maximum permissible peak pulse voltage (Umax.) as a function of pulse duration (ti)
104
Pmax.
(W)
103
t
tp
/
i = 1000
500
200
100
50
102
10
20
10
5
2
1
10-6
10-5
10-4
10-3
10-2
10-1
1
ti (s)
PR03 Pulse on a regular basis; maximum permissible peak pulse power (Pmax.) as a function of pulse duration (ti)
Pulse Loading Capabilities
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Power Metal Film Leaded Resistors
Vishay BCcomponents
2400
Umax.
(V)
2000
1600
1200
800
400
0
10-6
10-5
10-4
10-3
10-2
10-1
1
ti(s)
PR03 Pulse on a regular basis; maximum permissible peak pulse voltage (Umax.) as a function of pulse duration (ti)
Pulse Loading Capabilities
2
2
10
10
t
(s)
t
(s)
10
10
1
1
-1
-1
10
10
0
20
30
40
overload
50
10
20
30
40
50
0
10
P
(W)
P
overload (W)
PR01 Time to interruption as a function of overload power
for range: 0 R 22 ≤ Rn < 1 R
PR01 Time to interruption as a function of overload power
for range: 16 R ≤ Rn ≤ 560 R
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
2
2
10
10
t
(s)
t
(s)
10
10
1
1
- 1
-1
10
10
20
30
40
50
40
60
80
100
0
10
0
20
120
P
overload (W)
P
overload (W)
PR01 Time to interruption as a function of overload power
for range: 1 R ≤ Rn ≤ 15 R
PR02 Time to interruption as a function of overload power
for range: 0.33 R ≤ Rn < 5 R
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
Interruption Characteristics
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Power Metal Film Leaded Resistors
Vishay BCcomponents
2
2
10
10
t
(s)
t
(s)
10
10
1
1
-1
-1
10
10
40
60
80
100
40
60
80
P
100
overload
0
20
120
0
20
120
(W)
P
overload (W)
PR02 Time to interruption as a function of overload power
for range: 5 R ≤ Rn < 68 R
PR02 Time to interruption as a function of overload power
for range: 68 R ≤ Rn ≤ 560 R
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
Interruption Characteristics
2
200
10
∆T
(K)
t
(s)
160
10
120
80
40
0
1
-1
10
0
0.4
0.8
1.2
0
100
150
200
Poverload
250
50
P (W)
(W)
Ø 0.6 mm Cu-leads
PR03 Time to interruption as a function of overload power
for range: 0.68 R ≤ Rn ≤ 560 R
PR01 Hot-spot temperature rise (ΔT) as a function
of dissipated power.
This graph is based on measured data under constant voltage
conditions; the data may deviate according to the applications.
100
200
∆T
(K)
80
∆T
(K)
160
60
120
15 mm
40
80
40
0
20 mm
25 mm
20
0
0
0.4
0.8
1.2
0
0.4
0.8
1.2
P (W)
P (W)
Ø 0.6 mm FeCu-leads
Ø 0.6 mm Cu-leads
Minimum distance from resistor body to PCB = 1 mm
PR01 Temperature rise ( ) at the lead end (soldering point) as a
Δ
T
PR01 Hot-spot temperature rise (ΔT) as a function
function of dissipated power at various lead lengths after mounting.
of dissipated power.
Application Information
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Power Metal Film Leaded Resistors
Vishay BCcomponents
100
∆T
200
∆T
(K)
(K)
80
160
60
120
15 mm
40
20
0
80
20 mm
25 mm
40
0
0
0.4
0.8
1.2
0
0.8
1.6
2.4
P (W)
P (W)
Ø 0.6 mm FeCu-leads
Minimum distance from resistor body to PCB = 1 mm
PR01 Temperature rise ( ) at the lead end (soldering point) as a
Ø 0.8 mm Cu-leads
PR02 Hot-spot temperature rise (ΔT) as a function
ΔT
of dissipated power.
function of dissipated power at various lead lengths after mounting.
100
240
∆T
(K)
200
∆T
(K)
80
15 mm
160
120
80
40
0
60
20 mm
25 mm
40
20
0
0
1
2
0
0.8
1.6
2.4
P (W)
P (W)
Ø 0.8 mm Cu-leads
Minimum distance from resistor body to PCB = 1 mm
Ø 0.6 mm FeCu-leads
PR02 Temperature rise ( ) at the lead end (soldering point) as a
Δ
T
PR02 Hot-spot temperature rise (ΔT) as a function
function of dissipated power at various lead lengths after mounting.
of dissipated power.
100
240
∆T
(K)
200
∆T
(K)
80
160
120
80
40
0
15 mm
60
20 mm
25 mm
40
20
0
0
1
2
0
1
2
P (W)
P (W)
Ø 0.6 mm FeCu-leads
Minimum distance from resistor body to PCB = 1 mm
PR02 Temperature rise ( ) at the lead end (soldering point) as a
Ø 0.8 mm FeCu-leads
PR02 Hot-spot temperature rise (ΔT) as a function
ΔT
of dissipated power.
function of dissipated power at various lead lengths after mounting.
Application Information
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Power Metal Film Leaded Resistors
Vishay BCcomponents
100
200
∆T
(K)
∆T
(K)
80
160
15 mm
20 mm
60
120
25 mm
40
20
0
80
40
0
0
0.8
1.6
2.4
0
1
2
3
P (W)
P (W)
Ø 0.8 mm FeCu-leads
Ø 0.8 mm Cu-leads
Minimum distance from resistor body to PCB = 1 mm
PR03 Hot-spot temperature rise (ΔT) as a function
PR02 Temperature rise ( ) at the lead end (soldering point) as a
Δ
T
of dissipated power.
function of dissipated power at various lead lengths after mounting.
100
240
∆T
∆T
(K)
(K)
15 mm
200
80
160
120
80
40
0
20 mm
60
25 mm
40
20
0
0
1
2
3
0
1
2
3
P (W)
P (W)
Ø 0.8 mm Cu-leads
Ø 0.6 mm FeCu-leads
Minimum distance from resistor body to PCB = 1 mm
PR03 Temperature rise ( ) at the lead end (soldering point) as a
Δ
T
PR03 Hot-spot temperature rise (ΔT) as a function
function of dissipated power at various lead lengths after mounting.
of dissipated power.
100
240
∆T
∆T
(K)
(K)
200
80
10 mm
160
120
80
40
0
60
15 mm
20 mm
40
25 mm
20
0
0
1
2
3
0
1
2
3
P(W)
P (W)
Ø 0.6 mm FeCu-leads
Ø 0.8 mm FeCu-leads
Minimum distance from resistor body to PCB = 1 mm
PR03 Temperature rise ( ) at the lead end (soldering point) as a
Δ
T
PR03 Hot-spot temperature rise (ΔT) as a function
function of dissipated power at various lead lengths after mounting.
of dissipated power.
Application Information
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Power Metal Film Leaded Resistors
Vishay BCcomponents
100
∆T
(K)
80
15 mm
60
20 mm
40
20
0
0
0.8
1.6
2.4
3.2
P (W)
Ø 0.8 mm FeCu-leads
Minimum distance from resistor body to PCB = 1 mm
PR03 Temperature rise ( ) at the lead end (soldering point) as a function
of dissipated power at various lead lengths after mounting.
ΔT
2
10
Z
R
= 1 Ω
Rn
10
= 24 Ω
Rn
1
= 12 kΩ
Rn
-1
= 100 kΩ
Rn
10
10
-2
-1
2
3
10
1
10
10
10
f (MHz)
PR01 Impedance as a function of applied frequency
2
10
Z
R
= 1.2 Ω
Rn
10
= 10 Ω
Rn
1
= 22 kΩ
Rn
Rn
-1
10
10
= 124 kΩ
-2
10
-1
2
3
1
10
10
10
f
(MHz)
PR02 Impedance as a function of applied frequency
Application Information
Document Number: 28729
Revision: 14-Oct-09
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121
PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
2
10
Z
R
R
= 1.5 Ω
n
10
= 18 Ω
R
R
n
n
1
= 1.3 kΩ
-1
10
= 20 kΩ
R
n
= 100 kΩ
R
n
-2
10
2
3
1
10
10
10
f
(MHz)
PR03 Impedance as a function of applied frequency
Application Information
TESTS AND REQUIREMENTS
Essentially all tests are carried out in accordance with
IEC 60115-1 specification, category LCT/UCT/56 (rated
temperature range: Lower Category Temperature, Upper
Category Temperature; damp heat, long term, 56 days).
In the Test Procedures and Requirements table, tests
and requirements are listed with reference to the relevant
clauses of IEC 60115-1 and IEC 60068-2-xx test methods. A
short description of the test procedure is also given. In some
instances deviations from the IEC recommendations were
necessary for our method of specifying.
The tests are carried out in accordance with IEC 60068-2-xx
Test Method under standard atmospheric conditions
according to IEC 60068-1, 5.3.
All soldering tests are performed with mildly activated flux.
TEST PROCEDURES AND REQUIREMENTS
IEC
60068-2-
TEST
METHOD
IEC
60115-1
CLAUSE
TEST
PROCEDURE
REQUIREMENTS
4.4.1
4.4.2
Visual examination
Dimensions (outline)
No holes; clean surface; no damage
Gauge (mm)
Applied voltage (+ 0 %/- 10 %):
R < 10 Ω: 0.1 V
See Straight and Kinked Dimensions tables
10 Ω ≤ R < 100 Ω: 0.3 V
100 Ω ≤ R < 1 kΩ: 1 V
1 kΩ ≤ R < 10 kΩ: 3 V
10 kΩ ≤ R < 100 kΩ: 10 V
100 kΩ ≤ R < 1 MΩ: 25 V
R = 1 MΩ: 50 V
Resistance
(refer note on first
page for measuring
distance)
4.5
R - Rnom: max. 5 %
Resistance to
soldering heat
4.18
4.29
20 (Tb)
45 (Xa)
Thermal shock: 10 s; 260 °C; 3 mm from body
ΔR max.: (1 % R + 0.05 Ω)
Isopropyl alcohol or H2O
followed by brushing
Component solvent
resistance
No visual damage
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Document Number: 28729
Revision: 14-Oct-09
PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
TEST PROCEDURES AND REQUIREMENTS
IEC
60068-2-
TEST
IEC
60115-1
CLAUSE
TEST
PROCEDURE
REQUIREMENTS
METHOD
2 s; 235 °C; Solder bath method; SnPb40
3 s; 245 °C; Solder bath method; SnAg3Cu0.5
Good tinning (≥ 95 % covered);
4.17
20 (Ta)
Solderability
no damage
8 h steam or 16 h 155 °C;
leads immersed 6 mm:
for 2 s at 235 °C; solder bath (SnPb40)
for 3 s at 245 °C; solder bath (SnAg3Cu0.5)
Solderability
(after ageing)
Good tinning (≥ 95 % covered);
no damage
Voltage proof on
insulation
Maximum voltage URMS = 500 V
during 1 min; metal block method
4.7
No breakdown or flashover
Robustness of
terminations:
4.16
4.16.2
4.16.3
21 (Ua1)
21 (Ub)
Tensile all samples
Load 10 N; 10 s
Number of failures: < 1 x 10-6
Number of failures: < 1 x 10-6
Bending half
number of samples
Load 5 N; 4 x 90°
Torsion other half
of samples
4.16.4
4.20
21 (Uc)
29 (Eb)
3 x 360° in opposite directions
No damage
No damage
Δ
Δ
R
R
max.:
max.:
(
0.5 %
0.5 %
R
R
+ 0.05
+ 0.05
Ω
)
)
Bump
3 x 1500 bumps in three directions; 40 g
(
Ω
Frequency 10 Hz to 500 Hz;
displacement 1.5 mm or
acceleration 10 g; three directions; total 6 h
(3 x 2 h)
No damage
ΔR max.: (0.5 % R + 0.05 Ω)
4.22
4.19
6 (Fc)
Vibration
No visual damage
Rapid change of
temperature
30 min at LCT and
30 min at UCT; 5 cycles
PR01: ΔR max.: (1 % R + 0.05 Ω)
PR02: ΔR max.: (1 % R + 0.05 Ω)
PR03: ΔR max.: (2 % R + 0.05 Ω)
14 (Na)
4.23
Climatic sequence:
Dry heat
4.23.2
2 (Ba)
16 h; 155 °C
Damp heat
(accelerated)
1st cycle
4.23.3
30 (Db)
24 h; 55 °C; 90 % to 100 % RH
4.23.4
4.23.5
1 (Aa)
13 (M)
Cold
2 h; - 55 °C
Low air pressure
2 h; 8.5 kPa; 15 °C to 35 °C
Damp heat
(accelerated)
remaining cycles
Rins min.: 103 MΩ
ΔR max.: (1.5 % R + 0.1 Ω)
4.23.6
30 (Db)
5 days; 55 °C; 95 % to 100 % RH
Damp heat
(steady state)
56 days; 40 °C; 90 % to 95 % RH;
loaded with 0.01 P70 (Steps: 0 V to 100 V)
Rins min.: 1000 MΩ
ΔR max.: (3 % R + 0.1 Ω)
4.24
78 (Cab)
Endurance
(at 70 °C)
1000 h; loaded with P70 or Umax.;
4.25.1
4.8
ΔR max.: (5 % R + 0.1 Ω)
1.5 h ON and 0.5 h OFF
Temperature
coefficient
Between - 55 °C and + 155 °C
≤
250 ppm/K
Maximum voltage (DC) after 1 min; metal block
method
4.6.1.1
Insulation resistance
Rins min.: 104 MΩ
Document Number: 28729
Revision: 14-Oct-09
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123
PR01/02/03
Power Metal Film Leaded Resistors
Vishay BCcomponents
Last Digit of 12NC Indicating Resistance Decade
12NC INFORMATION FOR HISTORICAL
CODING REFERENCE
The resistors have a 12-digit numeric code starting with 23
RESISTANCE DECADE
0.22 to 0.91 Ω
1 to 9.76 Ω
LAST DIGIT
7
8
9
1
2
3
4
5
For 5 % tolerance:
10 to 97.6 Ω
100 to 976 Ω
1 to 9.76 kΩ
10 to 97.6 kΩ
100 to 976 kΩ
1 MΩ
• The next 7 digits indicate the resistor type and packing
• The remaining 3 digits indicate the resistance value:
- The first 2 digits indicate the resistance value
- The last digit indicates the resistance decade
For 1 % tolerance:
• The next 6 digits indicate the resistor type and packing
• The remaining 4 digits indicate the resistance value:
- The first 3 digits indicate the resistance value
- The last digit indicates the resistance decade
12NC Example
The 12NC for resistor type PR02 with Cu leads and a value
of 750 Ω with 5 % tolerance, supplied on a bandolier of
1000 units in ammopack, is: 2306 198 53751.
12NC - Resistor Type and Packaging (1)
23.. ... ..... (BANDOLIER)
AMMOPACK
REEL
RADIAL TAPED
LEAD Ø TOL
TYPE
STRAIGHT LEADS
mm
(%)
RADIAL TAPED
4000 units 3000 units
52 mm
52 mm
1000 units
06 191 2....
06 197 53...
22 197 1....
06 198 53...
22 194 54...
-
63 mm
52 mm
5000 units
500 units
5000 units
2000 units
1
5
1
5
5
5
1
5
-
-
22 196 1....
-
06 191 5....
-
PR01
PR02
Cu 0.6
06 197 03...
-
22 193 14...
-
06 197 23...
-
-
-
-
-
-
-
22 197 2....
-
-
-
-
-
-
-
06 192 5....
2322 197 5....
Cu 0.8
FeCu 0.6
Cu 0.8
06 198 03...
-
06 198 23...
2322 198 04...
-
-
-
-
-
-
-
-
-
-
-
-
-
22 195 14...
06 199 6...
22 195 54...
PR03
-
FeCu 0.6
-
Notes
(1) Other packaging versions are available on request
• Preferred types in bold
12NC - Resistor Type and Packaging
23.. ... ..... (LOOSE IN BOX)
DOUBLE KINK
LEAD Ø
mm
TOL
(%)
TYPE
PITCH (2)(3)(4)
PITCH = 17.8 mm
PITCH = 25.4 mm
1000 units
500 units
1000 units
500 units
Cu 0.6
FeCu 0.6
Cu 0.8
5
5
5
5
5
5
5
5
22 193 03...
-
-
-
PR01
PR02
22 193 43...
-
22 193 53... (2)
-
22 194 23...
-
-
-
FeCu 0.6
FeCu 0.8
Cu 0.8
22 194 83...
-
-
-
-
-
-
-
-
22 194 63... (3)
-
22 195 23...
22 195 83...
-
-
-
-
-
PR03
FeCu 0.6
FeCu 0.8
-
22 195 63... (4)
Notes
(2) PR01 pitch 12.5 mm
(3) PR02 pitch 15.0 mm
(4) PR03 pitch 20.0 mm, with reversed kinking direction as opposed to the drawing for the type with double kink figure
• Preferred types in bold
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Document Number: 28729
Revision: 14-Oct-09
Legal Disclaimer Notice
Vishay
Disclaimer
ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE
RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,
“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other
disclosure relating to any product.
Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or
the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all
liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,
consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular
purpose, non-infringement and merchantability.
Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical
requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements
about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular
product with the properties described in the product specification is suitable for use in a particular application. Parameters
provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All
operating parameters, including typical parameters, must be validated for each customer application by the customer’s
technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,
including but not limited to the warranty expressed therein.
Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining
applications or for any other application in which the failure of the Vishay product could result in personal injury or death.
Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk and agree
to fully indemnify and hold Vishay and its distributors harmless from and against any and all claims, liabilities, expenses and
damages arising or resulting in connection with such use or sale, including attorneys fees, even if such claim alleges that Vishay
or its distributor was negligent regarding the design or manufacture of the part. Please contact authorized Vishay personnel to
obtain written terms and conditions regarding products designed for such applications.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by
any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
Document Number: 91000
Revision: 11-Mar-11
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1
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