CSTLSFREQ2G-A0 [MURATA]
Ceramic Resonator, 3.4MHz Min, 10MHz Max;
| 型号: | CSTLSFREQ2G-A0 |
| 厂家: | 
muRata |
| 描述: | Ceramic Resonator, 3.4MHz Min, 10MHz Max |
| 文件: | 总13页 (文件大小:211K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Ceramic Resonators(CERALOCKr)
Lead Type Three-Terminals CSTLA/CSTLS Series
10.0 max.
5.0 max.
"CERALOCK" with built-in load capacitors.
MURATA's ceramic resonator, "CERALOCK", has been
widely applied as the most suitable component
for clock oscillators in a broad range of
1.3±0.1
microprocessors. The CSTLS series (MHz band) and
CSTLA series (MHz band) can be used in the design of
oscillation circuits not requiring external load
capacitors, enabling both high-density mounting and
cost reduction.
0.5±0.1
3
(3)
(2)
(1)
CSTLA_T
10.01-13.00MHz
: EIAJ code
(in mm)
2.5±0.2
2.5±0.2
■ Features
1. Oscillation circuits do not require external load
10.0max.
5.0max.
capacitors.
2. The series is stable over a wide temperature range.
3. The resonators are compact, light weight and
exhibit superior shock resistance performance.
4. They enable the design of oscillator circuits
requiring no adjustment.
1.3±0.1
0.5±0.1
5. The series is inexpensive and available in stable
supply.
(3)
(2)
(1)
6. There are some variation of built-in capacitance
value to apply various of IC.
CSTLA_X
13.01-15.99MHz
13.01 to 14.99MHz : 9.0max
: EIAJ Code
2.5±0.2
2.5±0.2
(in mm)
■ Applications
• DTMF generators.
1
• Clock oscillators for microcomputers.
• Automotive electronics.
(Suffixed "A" ex. CSTLS_G_A)
• Remote control units.
5.5±1.0
T
• Automated office equipment.
(3)
(2)
(1)
T
1: 3.5±1.0 (16.00—32.99MHz)
3.0±1.0 (33.00—70.00MHz)
: EIAJ Monthly Code
CSTLS_X
16.00-70.00MHz
2.5±0.2 2.5±0.2
(in mm)
9.0±1.0
4.0±1.0
8.0±1.0
3.0±1.0
007..770 ((RReeff..))
07.70 (Ref.)
CSTLS_G
CSTLS_G
2.00-3.39MHz
3.40-10.00MHz
2.5±0.2
: Weekly Data Code
(in mm)
2.5±0.2
: Weekly Data Code
(in mm)
2.5±0.2
2.5±0.2
16
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Oscillating Frequency
Initial Tolerance Temp.Stability Temperature Range
Aging (10 years)
(% )
Part Number
(MHz)
Use
(% )
(% )
(°C)
CSTLA_T
CSTLA_X
CSTLS_X
CSTLS_G
CSTLS_G
10.01 to 13.00
13.01 to 15.99
16.00 to 70.00
2.00 to 3.39
±0.5
±0.5
±0.5
±0.5
±0.5
±0.4
±0.3
±0.2
±0.2
±0.2
-20 to 80
-20 to 80
-20 to 80
-20 to 80
-20 to 80
±0.3
±0.3
±0.2
±0.2
±0.2
-
-
-
-
-
3.40 to 10.00
Irregular or stop oscillation may occur under unmatched circuit conditions. Please check the actual conditions prior to use.
The order quantity should be an integral multiple of the Minimum Quantity shown in the packaging page.
■ Oscillation Frequency Measuring Circuit
VDD
3
To Frequency counter
Rf
Rd
(1)
(3)
C1
C2
(2)
■ Oscillation Frequency Temperature Stability
CSTLA_T
CSTLA_X
W0.5
W0.25
0
W0.5
0
Y40
0
40
80
120
Y40
0
40
80
120
Temperature (˚C)
Temperature (˚C)
Y0.25
Y0.5
Y0.5
CSTLS_G
CSTLS_X
W0.50
0.3
0.2
0.1
0.0
W0.25
0
−
−
30
−
10
50
10
30
50
70
90
110
130
Y40
0
40
80
120
Temperature (˚C)
Temperature (°C)
−
0.1
−
0.2
−
0.3
Y0.25
Y0.50
17
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
The structure of the "Global Part Numbers" that have been adopted since June 2001 and the meaning of each code are described herein.
If you have any questions about details, inquire at your usual Murata sales office or distributor.
o Part Numbering
(
)
r
CERALOCK (MHz)
(Global Part Number)
-R0
CS
T
CV 16M0 X53 ***
q
w
e
r
t
y
u
qProduct ID
yIndividual Specification
Product ID
Individual Specification
Code
CS
Ceramic Resontors
Three-digit alphanumerics express
"Individual Specification".
***
wFrequency/Capacitance
With standard products, "yIndividual Specification" is omitted, and
"uPackage Specification Code" is carried up.
Code
Frequency/Capacitance
A
T
MHz No capacitance built-in
MHz Built-in Capacitance
uPackaging
Packaging
Code
-B0
-A0
-A1
-R0
-R1
eStructure/Size
Bulk
Code
LA
Structure/Size
Lead Type
Radial Taping H0=18mm
Radial Taping H0=16mm
Plastic Taping ø=180mm
Plastic Taping ø=330mm
LS
Round Lead Type
Cap Chip Type
CC
CR
CV
Radial taping is applied to lead type and plastic taping to chip type.
Small-cap Chip Type
Monolithic Chip Type
Small Monolithic Chip Type
CW
rNominal Center Frequency
Expressed by four-digit alphanumerics. The unit is in hertz (Hz). A
decimal point is expressed by the capital letter "M".
tDesign
Code
Gpp
Tpp
Xpp
Design
Thickness Shear Vibration
Thickness Longitudinal Vibration
Thickness Longitudinal Vibration(3rd overtone)
pp indicates initial frequency tolerance and load capacity.
r
CERALOCK (kHz)
(Global Part Number)
CS
B
FB 1M00 J58 *** -R1
q
w
e
r
t
y
u
qProduct ID
tDesign
Product ID
Code
Epp
Jpp
Design
CS
Ceramic Resontors
Area Shear Vibration
Area Shear Vibration (Closed Type)
wFrequency/Capacitance
pp indicates initial frequency tolerance and load capacity.
Code
Frequency/Capacitance
yIndividual Specification
B
kHz No capacitance built-in
Individual Specification
Code
eStructure/Size
Three-digit alphanumerics express
"Individual Specification".
***
Code
LA
Structure/Size
Two-Terminal Lead Type
SMD Type
With standard products, "yIndividual Specification" is omitted, and
"uPackage Specification Code" is carried up.
FB
rNominal Center Frequency
uPackaging
Expressed by four-digit alphanumerics. The unit is in hertz (Hz). If
the unit is "kHz", it is expressed by three figures plus "K". If the
unit is "MHz", a decimal point is expressed by the capital letter
"M".
Packaging
Bulk
Code
-B0
Plastic Taping ø=330mm
-R1
2
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead type Notice
■ Notice (Soldering and Mounting)
CSTLA_T/CSTLA_X/CSALA_T/CSALA_X
(1)Cleaning Solvent
(3)Drying
HCFC, Isopropanol, Tap water, Demineralized water,
Cleanthrough750H, Pine alpha 100S, Techno care FRW
(2)Condition
5 minutes max. by air blow at +80°C max.
(4)Others
1. In case of immersing in cleaning solvent, the
temperature of component must be returned to room
temperature after soldering
1. Ultrasonic Wash
1 minute max. in above solvent at +60°C max.
(Frequency:28kHz, Output:20W/L)
2. Immersion Wash
2. Total washing time should be within 10 minutes.
3. Please insure the component is thoroughly
evaluated in your application circuit.
5 minutes max. in above solvent at +60°C max.
3. Shower or Rinse Wash
4. The component may be damaged if it is washed with
chlorine, pertroleum or alkali cleaning solvent.
5 minutes max. in above solvent at +60°C max.
■ Notice (Soldering and Mounting)
CSTLS_G/CSTLS_X/CSALS_X
The component cannot be withstand washing.
4
■ Notice (Storage and Operating Conditions)
CSTLA_T/CSTLA_X/CSALA_T/CSALA_X
Please do not apply excess mechanical stress to the
component and lead terminals at soldering.
Conformal coating of the component is acceptable.
However, the resin material, curing temperature, and
other process conditions should be evaluated to
confirm stable electrical characteristics are
maintained.
■ Notice (Storage and Operating Conditions)
CSTLS_G/CSTLS_X/CSALS_X
Please do not apply excess mechanical stress to the
component and lead terminals at soldering.
Conformal coating or washing to the component is not
acceptable. Because it is not hermetically sealed.
■ Notice (Rating)
The component may be damaged if excess mechanical
stress is applied.
■ Notice (Handling)
"CERLOCK" may stop oscillating or oscillate
irregularly under improper circuit conditions.
20
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead Type CSTLA/CSTLS Series Packaging
■ CSTLA/CSTLS Series Minimum Quantity
Part Number
Ammo Pack
1,000
Bulk
500
500
500
500
500
CSTLA_T (10.01 to 13.00MHz)
CSTLA_X (13.01 to 15.99MHz)
CSTLS_X (16.00 to 70.00MHz)
CSTLS_G (2.00 to 3.39MHz)
CSTLS_G (3.40 to 10.0MHz)
1,000
2,000
1,500
2,000
(pcs.)
The order quantity should be an integral multiple of the "Minimum Quantity" shown above.
■ Tape Dimensions of CSTLA_T
∆h ∆h
P2
P
∆S
D
D1xt1
4
D0
P1 F1 F2
P0
t
Item
Code
Dimensions
10.0 max.
8.0 max.
0.5×0.3
3.0 min.
12.7
Tolerance
Remarks
Width of diameter
Height of resonator
D
A
-
-
Dimensions of terminal
D1×t1
L1
±0.1
-
Lead length under the hold down tape
Pitch of component
P
±0.5
±0.2
±0.5
Tolerance for pitches 10xP0=127±1
Pitch of sprocket hole
P0
12.7
Length from sprocket hole center to lead
Length from sprocket hole center to
component center
P1
3.85
P2
6.35
±0.5
Lead spacing (I)
F1
F2
2.5
2.5
±0.2
±0.2
±1.0
±0.5
-
Lead spacing (II)
Slant to the forward or backward
Width of carrier tape
∆h
W
0
1mm max.
18.0
6.0 min.
9.0
Width of hold down tape
Position of sprocket hole
Gap of hold down tape and carrier tape
Distance between the center of
sprocket hole and lead stopper
Total heigth of resonator
Diameter of sprocket hole
Total tape thickness
W0
W1
W2
Hold down tape doesn't exceed the carrier tape.
±0.5
+0.5
0
-0
H0
18.0
±0.5
H1
D0
t
26.5 max.
-
ø4.0
0.6
0
±0.2
±0.2
±1.0
Body tilt
∆S
(in mm)
Continued on the following page.
21
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead Type CSTLA/CSTLS Series Packaging
Continued from the preceding page.
■ Tape Dimensions of CSTLA_X
∆h ∆h
P2
P
∆S
D
D1xt1
D0
P1 F1 F2
P0
t
4
Item
Code
Dimensions
10.0 max.
8.0 max.
0.5×0.3
3.0 min.
12.7
Tolerance
Remarks
Width of diameter
Height of resonator
D
A
-
-
13.01 to 14.99MHz : 9.0 max.
Dimensions of terminal
D1×t1
L1
±0.1
-
Lead length under the hold down tape
Pitch of component
P
±0.5
±0.2
±0.5
Tolerance for pitches 10xP0=127±1
Pitch of sprocket hole
P0
12.7
Length from sprocket hole center to lead
Length from sprocket hole center to
component center
P1
3.85
P2
6.35
±0.5
Lead spacing (I)
F1
F2
2.5
2.5
±0.2
±0.2
±1.0
±0.5
-
Lead spacing (II)
Slant to the forward or backward
Width of carrier tape
∆h
W
0
1mm max.
18.0
6.0 min.
9.0
Width of hold down tape
Position of sprocket hole
Gap of hold down tape and carrier tape
Distance between the center of
sprocket hole and lead stopper
Total heigth of resonator
Diameter of sprocket hole
Total tape thickness
W0
W1
W2
Hold down tape doesn't exceed the carrier tape.
±0.5
+0.5
0
-0
H0
18.0
±0.5
H1
D0
t
26.5 max.
-
13.01 to 14.99MHz : 27.5 max.
ø4.0
0.6
0
±0.2
±0.2
±1.0
Body tilt
∆S
(in mm)
Continued on the following page.
22
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead Type CSTLA/CSTLS Series Packaging
Continued from the preceding page.
■ Tape Dimensions of CSTLS_X
P2
P
∆h ∆h
D
∆S
d
D0
P1 F1 F2
P0
Direction of Feed
4
t
Item
Width of diameter
Code
D
Dimensions
5.5
Tolerance
±1.0
±0.5
±0.05
–
Remarks
Height of resonator
Dimensions of terminal
A
6.5
d
ø0.48
5.0 min.
12.7
Lead length under the hold down tape
Pitch of component
L1
P
±0.5
±0.2
±0.5
Tolerance for Pitches 10xP0=127±1
Pitch of sprocket hole
P0
P1
12.7
Length from sprocket hole center to lead
Length from sprocket hole center to
component center
3.85
P2
6.35
±0.5
Lead spacing (I)
F1
F2
2.5
±0.2
±0.2
±1.0
±0.5
–
Lead spacing (II)
2.5
Slant to the forward or backward
Width of carrier tape
∆h
W
0
1mm max.
18.0
6.0 min.
9.0
Width of hold down tape
Position of sprocket hole
Gap of hold down tape and carrier tape
Distance between the center of
sprocket hole and lead stopper
Total heigth of resonator
Diameter of sprocket hole
Total tape thickness
W0
W1
W2
Hold down tape doesn't exceed the carrier tape.
±0.5
W0.5
Y0.0
0
H0
18.0
±0.5
H1
D0
t
24.5
ø4.0
0.6
0
±0.1
±0.2
±0.2
±1.0
Body tilt
∆S
(in mm)
Continued on the following page.
23
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead Type CSTLA/CSTLS Series Packaging
Continued from the preceding page.
■ Tape Dimensions of CSTLS_G (2.00 to 3.39MHz)
P2
P
∆h ∆h
∆S
D
M
M
d
D0
P1 F1 F2
P0
4
t
Direction of Feed
Item
Code
Dimensions
9.0
Tolerance
±1.0
±0.5
±0.05
-
Remarks
Width of diameter
Height of resonator
D
A
5.5
Dimensions of terminal
d
ø0.48
5.0 min.
12.7
Lead length under the hold down tape
Pitch of component
L1
P
±0.5
±0.2
±0.5
Tolerance for Pitches 10xP0=127±1
Pitch of sprocket hole
P0
P1
12.7
Length from sprocket hole center to lead
Length from sprocket hole center to
component center
3.85
P2
6.35
±0.5
Lead spacing (I)
F1
F2
2.5
±0.2
±0.2
±1.0
±0.5
-
Lead spacing (II)
2.5
Slant to the forward or backward
Width of carrier tape
∆h
W
0
1mm max.
18.0
6.0 min.
9.0
Width of hold down tape
Position of sprocket hole
Gap of hold down tape and carrier tape
Distance between the center of
sprocket hole and lead stopper
Total heigth of resonator
Diameter of sprocket hole
Total tape thickness
W0
W1
W2
Hold down tape doesn't exceed the carrier tape.
±0.5
+0.5
0
-0
H0
18.0
±0.5
H1
D0
t
23.5
ø4.0
0.6
0
±0.1
±0.2
±0.2
±1.0
Body tilt
∆S
(in mm)
Continued on the following page.
24
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
MHz Lead Type CSTLA/CSTLS Series Packaging
Continued from the preceding page.
■ Tape Dimensions of CSTLS_G (3.40 to 10.00MHz)
P2
P
∆h ∆h
∆S
D
M
M
d
D0
P1 F1 F2
P0
4
t
Direction of Feed
Item
Code
Dimensions
8.0
Tolerance
±1.0
±0.5
±0.05
–
Remarks
Width of diameter
Height of resonator
D
A
5.5
Dimensions of terminal
d
ø0.48
5.0 min.
12.7
Lead length under the hold down tape
Pitch of component
L1
P
±0.5
±0.2
±0.5
Tolerance for Pitches 10xP0=127±1
Pitch of sprocket hole
P0
P1
12.7
Length from sprocket hole center to lead
Length from sprocket hole center to
component center
3.85
P2
6.35
±0.5
Lead spacing (I)
F1
F2
2.5
±0.2
±0.2
±1.0
±0.5
–
Lead spacing (II)
2.5
Slant to the forward or backward
Width of carrier tape
∆h
W
0
1mm max.
18.0
6.0 min.
9.0
Width of hold down tape
Position of sprocket hole
Gap of hold down tape and carrier tape
Distance between the center of
sprocket hole and lead stopper
Total heigth of resonator
Diameter of sprocket hole
Total tape thickness
W0
W1
W2
Hold down tape does not exceed the carrier tape.
±0.5
W0.5
0
Y0
H0
18.0
±0.5
H1
D0
t
23.5
ø4.0
0.6
0
±1.0
±0.2
±0.2
±1.0
Body tilt
∆S
(in mm)
25
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Application Circuits Utilizing
■ TMP87CM40AN(TOSHIBA)
■ MC68HC908JB8(MOTOROLA)
8-bit Microcomputer
8-bit Microcomputer
VDD (+5V)
VDD(+5V)
5
22,42
IC : MC68HC908JB8
IC : TMP87C846N
2
3
1
19
20
CSTLS8M00G53-B0
L
Rf
CSTCR6M00G55-R0
C1=15pF
C2=15pF
C1=39pF
C2=39pF
C1 C2
L : 17,18,21
C1 C2
■ uPD78018F(NEC)
■ HD64F3337(HITACHI)
8-bit Microcomputer
8-bit Microcomputer
VCC (+5V)
H
VDD (+5V)
100kΩ 0.01µF
H
43
IC : HD64F3337
IC : µPD78018F
3
2
L
50
49
L
CSTCV16M0X53J-R0
CSTLS8M00G53-B0
C1=15pF
C2=15pF
C1=15pF
C2=15pF
C1 C2
C1 C2
H : 48,59,60,63,64
L : 1-8,17,32,51,
54-58,61,62
H : 4,7,8,9,47,55
L : 1,12,38,56,73
6
■ ML66517(OKI)
■ M38039MF(MITSUBISHI)
8-bit Microcomputer
8-bit Microcomputer
VDD (+5V)
H
VCC (+5V)
1
IC : ML66517
IC : M38039MF
37
36
CSTCV16M0X53J-R0
L
30
31
CSTLS8M00G53-B0
3,26,32
C1=15pF
C2=15pF
C1=15pF
C2=15pF
C1 C2
C1 C2
H : 9,65
L : 10,35,55,75,76
Continued on the following page.
37
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Application Circuits Utilizing
Continued from the preceding page.
■ M34280M1(MITSUBISHI)
■ uPD65(NEC)
Remote Control Unit
Speech Synthesizer
VDD (+3V)
H
VDD (+3.0V)
20
IC : µPD65
IC : M34280M1
8
7
L
4
5
1
®
CERALOCK
C1 C2
CSTLS3M64G53-B0
C1=15pF
C2=15pF
C1=15pF
C2=15pF
C1 C2
H : 6,10
L : 3,9,12,13,14
®
CERALOCK : CSTLS3M64G53-B0
■ uPD754304(NEC)
■ LC651154F(SANYO)
4-bit Microcomputer
4-bit Microcomputer
+5V
VDD(+5V)
19,20
2
10
8
IC : µPD754304
IC : LC651154F
3
1,4
L
9
CSTLS4M00G53-B0
CSTLS4M00G56-B0
C1=47pF
C2=47pF
C1 C2
C1
C2
L=1-7,16-20,25,26,29
C1=15pF
C2=15pF
6
■ LC7367JM(SANYO)
■ ML7005MB(OKI)
Tone/Pulse Dialer
Tone/Pulse Dialer
VDD (+5V)
VDD (+5.0V)
H
2
21
9
IC : LC7367JM
IC : ML7005MB
9
10
CSTLS3M58GD6267-B0
L
11
12
CSTLS3M58GD3104
23
C1=47pF
C2=47pF
C1 C2
C1 C2
C1=15pF
C2=15pF
H=11
L=5,6,7,8,12
Continued on the following page.
38
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Application Circuits Utilizing
Continued from the preceding page.
■ uPD70F3102GJ(NEC)
■ CXD2598Q(SONY)
32-bit Microcomputer
Digital Signal Processing IC for CD
VDD (+5V)
VDD (+3.3V)
H
H
IC : µPD70F3102
IC : CXD2598Q
87
64
63
L
86
L
CSTCR6M60G55-R0
C1=22pF
C2=22pF
C1=39pF
C2=39pF
CSTCV16M9X54J-R0
C1 C2
H : 34,45,62,100,126,144
L : 9,35,65,71,83,117,135
H : 1,30,44,58,67,76,85,89
L : 2,29,45,56,62,72,88,93,94
C1
C2
■ LC895299(SANYO)
■ TMP47C660AN(TOSHIBA)
Error Correction of CD-ROM LSI
4-bit Microcomputer
VDD1
(+5V)
VDD2
(+3.3V)
VDD (+5V)
H1
H2
64
IC : LC895299
IC : TMP47C660AN
93
92
L
Rf
50
51
2,31,32
CSTLS4M00G53-B0
CSTCW33M8X53-R0
H1 : 21,39,52,65,86,88,94,112,
H1 : 154,163,176
C1 C2
H2 : 22,44,66,110,116,132,165
L : 1,23,24,40,45,51,58,67,73,89,
L : 91,109,111,125,133,139,155,164
C1=15pF
C2=15pF
C1
C2
6
■ TA8690AN(TOSHIBA)
■ LA3410(SANYO)
TV Horizontal/Compatible with Synthesizer Circuit
FM Stereo MPX
VCC (+9.0V)
VCO STOP
VCC
+
3.3µF
−
+
1µF
25, 44
0.47µF
16 15
14 13
12
11
10
7
9
IC : TA8690AN
LA3410
23
24
20
22
8
37
1
2
3
4
L
5
6
8
62kΩ
62kΩ
0.047µF
Vcont.
FH (1/32fosc.)
VCC (+12V)
750pF
750pF
INPUT
R
®
CERALOCK : CSBLA503KEZZF46-B0
Continued on the following page.
39
This is the PDF file of catalog No.P16E-12
P16E12.pdf 01.5.29
Application Circuits Utilizing
Continued from the preceding page.
■ TEA2130(THOMSON)
■ LA7687(SANYO)
TV Horizontal/Compatible with Synthesizer Circuit
TV Horizontal/Compatible with Synthesizer Circuit
VCC (+7.8V)
+
VCC (+12.0V)
1kΩ
Flyback In
Hout
48
15
44
22
40
5
11
13
IC : LA7687
23
IC : TEA2130
18
24
25
17
3
9
4
Vcont.
22µF
0.033µF
+
1.8kΩ
®
3.3µF
HVcc 13mA
CERALOCK : CSBLA503KEZZF12-B0
Rs=470Ω
Vcont.
Hout (fosc./32)
®
CERALOCK : CSBLA503KEZZF12-B0
■ Oscillation Circuit Incorporationg Transistor
30kΩ
-10V
Output
Recommendable Value
®
CERALOCK : CSBLA455KEC8-B0
6
40
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