120KHZ
Abstract: No abstract text available
Text: 833 ±0.5% ±1% 15 ±2% 666 ±0.5% ±1% 24 ±2% 416 ±0.5% ±1% 77% 120KHz 82% 120KHz 83% 120KHz 83% 120KHz 83% 120KHz type 3.3 5 12 15 24 ±2% ±2% ±2% ±2% ±2% 1500 , (Vp-p) <0.5% Vout +50mV max (Vp-p) 76% 82% 83% 83% 83% 120KHz 120KHz 120KHz 120KHz 120KHz
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8-36V)
24-5S
24-12S
24-15S
24-24S
1500mA
120KHZ
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2002 - XC6351A
Abstract: XC6351A120MR
Text: NHighly Efficient GCellular and portable phones : 90% NLow Power Consumption : 310µA ( 120kHz , Frequency : 120kHz : 35kHz ( custom ) Low Supply Current : 310 µA ( TYP ) : 100 µA ( TYP ; 35kHz , / C- VOUT GND XC6351A120MR ( 120kHz ) RL VIN=3.0V,C1=C2=1.0 µF(ceramic) CIN=1.0 µF(ceramic , SYMBOL qwe r t 120 035 M R L Oscillation frequency 120kHz Oscillation frequency 35kHz , frequency PRODUCT NAME 3 35kHz XC6351A035M 2 120kHz XC6351A120M 0 1 r
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120kHz
NSOT-26
XC6351A
OT-26
XC6351A120MR
120kHz)
XC6351A120MR
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12V DC to 24V dC converter circuit diagram
Abstract: diagram Converter 24v to 12v 48V DC to 12v dc converter circuit diagram 12V DC to 48v dc converter circuit diagram 24v to 12v converter CIRCUIT DIAGRAM 12V DC to 24V dual dC converter circuit diagram 24V DC to 12V dC converter circuit diagram 36V DC to 12V dC converter circuit diagram
Text: 78% 120KHz 79% 120KHz 80% 120KHz type 5 12 15 24 ±2% ±2% ±2% ±2% 2000 833 666 , (Vp-p) 78% 79% 80% 80% 120KHz 120KHz 120KHz 120KHz Works over 120% of rating and recovers
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12-5S
12-12S
12-15S
12-24S
12-5D
12-12D
12-15D
2000mA
833mA
666mA
12V DC to 24V dC converter circuit diagram
diagram Converter 24v to 12v
48V DC to 12v dc converter circuit diagram
12V DC to 48v dc converter circuit diagram
24v to 12v converter CIRCUIT DIAGRAM
12V DC to 24V dual dC converter circuit diagram
24V DC to 12V dC converter circuit diagram
36V DC to 12V dC converter circuit diagram
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XC6351A
Abstract: XC6351A120MR
Text: Range 1.2V to 5.0V Highly Efficient 90% Low Power Consumption 310µA ( 120kHz ) CE ( Chip Enable , : Oscillator Frequency : 1.2V to 5.0V 120kHz 35kHz ( custom ) 310 µA ( typ ) 100 µA ( typ ; 35kHz ) 90 , . 286 Electrical Characteristics FOSC = 120kHz Ta = 25 C O CONDITIONS SYMBOL I DD , XC6351A 1 2 3 4 5 SYMBOL 123 DESCRIPTION 120 Oscillation frequency 120kHz 035 Oscillation , (1) Output Voltage vs. Output Current XC6351A120MR ( 120kHz ) XC6351A120MR ( 120kHz ) VIN
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XC6351A
120kHz
OT-26
XC6351A120MR
120kHz)
XC6351A120MR
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2003 - ir 9922
Abstract: No abstract text available
Text: Specification: Pass Band Frequency 200Hz~ 120KHz @100mA DC Attenuation 55dB Min @800KHz ~ 8MHz Insertion Loss 0.8dB Max. @200Hz~ 120KHz Return Loss 16dBMin. @200Hz~ 120KHz D.C Resistance , ) R.L(dB) DCR IR 200HZ 120KHZ 800KHZ 8MHZ 200HZ 80KHZ 120KHZ 6ohms Max
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CO150C384AA
CO150C384AA-R1
200Hz
120KHz
100mA
800KHz
16dBMin.
ir 9922
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2001 - ATFN6025A
Abstract: No abstract text available
Text: Khz) Equalized atten. (A1=1.0, A2=0.5) (A1*Fo-60Khz+A2*Fo- 120Khz ) (A1*Fo- 120Khz +A2*Fo-330Khz) (A1*Fo+60Khz+A2*Fo+ 120Khz ) (A1*Fo+ 120Khz +A2*Fo+330Khz) 3 dB min 22 dB min Flyback (± 25MHz , 60Khz & ± 120Khz ) (± 330Khz & ± 660Khz) 70dB min 70dB min Terminating Impedance 2000// -0.6pF
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ATFN6025A
32Mhz
Fo-60Khz
Fo-120Khz)
Fo-120Khz
Fo-330Khz)
60Khz
120Kut
60Khz
ATFN6025A
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2001 - flyback 60108
Abstract: ATFN6024A
Text: Khz) Equalized atten. (A1=1.0, A2=0.5) (A1*Fo-60Khz+A2*Fo- 120Khz ) (A1*Fo- 120Khz +A2*Fo-330Khz) (A1*Fo+60Khz+A2*Fo+ 120Khz ) (A1*Fo+ 120Khz +A2*Fo+330Khz) 3 dB min 22 dB min Flyback (± 25MHz , 60Khz & ± 120Khz ) (± 330Khz & ± 660Khz) 70dB min 70dB min Terminating Impedance 2000// -0.6pF
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ATFN6024A
Fo-60Khz
Fo-120Khz)
Fo-120Khz
Fo-330Khz)
60Khz
Fo-25
flyback 60108
ATFN6024A
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Not Available
Abstract: No abstract text available
Text: 20V, IO =200mA VI = 8V to 20V, IO =200mA VI = 8V to 18V, f = 120KHz IO = 5mA to 500mA IO = 5mA to , package) VI = 8V to 25V, IO =200mA VI = 9V to 25V, IO =200mA VI = 9V to 19V, f = 120KHz IO = 5mA to 500mA , package) VI = 10.5V to 25V, IO =200mA VI = 11V to 25V, IO =200mA VI = 11.5V to 21.5V, f = 120KHz IO = 5mA , (TO220 package) VI = 11V to 27V, IO =200mA VI = 13V to 27V, IO =200mA VI = 12V to 22V, f = 120KHz IO = , 23V, f = 120KHz IO = 5mA to 500mA IO = 5mA to 200mA IO = 5mA f = 10Hz to 100KHz 0°C to 125°C Min
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GM78M00
500mA
GMM78MXX
J-STD-020.
900ppm
1500ppm
GM78M00V2
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2001 - 83.16
Abstract: MSFB12-85-02640 MSFB12-85-026K0 MSFC12-83-026K0 MSFC12-85-026K1
Text: 5.0 MAX. Fo 120kHz 50 MIN. Fo 120kHz 40 MIN. dB Fo±60kHz 25 MIN. Fo±60kHz 25 MIN. Fo+ 120kHz 50 MIN. Fo+ 120kHz 40 MIN. Fo±10kHz 12 MAX. MSFC12 980//1.2
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MSFC12-83-026K0
MSFC12-85-026K1
MSFB12-85-026K0
16MHz.
38MHz.
MSFB12-85-02640
13kHz
120kHz
83.16
MSFB12-85-02640
MSFB12-85-026K0
MSFC12-83-026K0
MSFC12-85-026K1
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SAFC130
Abstract: 925-kHz SAFC83 SAFC83.160MC40X SAFC130.000MC
Text: Frequency Characteristics SAFC83.160MC40X v ) fo-400kHz to fo- 120kHz vi) fo- 120kHz to fo- 60kHz vii) fo± 47kHz viii) fo+ 60kHz to fo+ 120kHz ix ) fo + 120kHz to fo + 150kHz x ) fo+ 15 0kH z to fo , odulation (dBm) Intermodulation in the composite signal of fo±60kHz and fo± 120kHz by addition of -20dBm
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SC511
SAFC83
160MC40X
160MHz)
1000kHz
fo--925kHz
fo--885kHz
fo--700kHz
fo--400kHz
SAFC130
925-kHz
SAFC83.160MC40X
SAFC130.000MC
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2003 - MSFC12-83-026K0
Abstract: MSFC12-85-026K1
Text: MIN. Fo- 120kHz 35 25 MIN. Fo±60kHz Fo+ 120kHz 60 50 MIN. Fo+ 120kHz 65 40 MIN. Fo±13kHz 6 10 MAX. Fo±10kHz 5 12 MAX. Fo- 120kHz dB Guaranteed
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MSFC12-83-026K0
MSFC12-85-026K1
16MHz.
38MHz.
13kHz
10kHz
Fo-120kHz
60kHz
MSFC12-83-026K0
MSFC12-85-026K1
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2004 - MSFC12-83-026K0
Abstract: MSFC12-85-026K1
Text: . #3 #1 Minimum Loss 3.5 * 5.0 MAX. Minimum Loss 3.5 * 5.0 MAX. #2 2.54 7.6 Fo- 120kHz 64 * 50 MIN. Fo- 120kHz 59 * 40 MIN. dB Guaranteed Attenuation Fo±60kHz 35 * 25 MIN. Fo , Conditions Specifications 2.54 Item (Unit : mm) 1.4 Specifications 33 * 25 MIN. Fo+ 120kHz 60 * 50 MIN. Fo+ 120kHz 65 * 40 MIN. Group Delay Deviation µS Fo±13kHz Terminating Impedance
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MSFC12-83-026K0/MSFC12-85-026K1
t026K·
26kHz
16MHz.
38MHz.
MSFC12-83-026K0
MSFC12-85-026K1
120kHz
13kHz
MSFC12-83-026K0
MSFC12-85-026K1
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Not Available
Abstract: No abstract text available
Text: A f l A Insertion Loss dB Minimum Loss 5.0 MAX. Minimum Loss 5.0 MAX. Fo- 120kHz 50 MIN. Fo- 120kHz 40 MIN. Fo±60kHz 25 MIN. Fo±60kHz 25 MIN. Fo+ 120kHz 50 MIN. Fo+ 120kHz 40 MIN. Fo+13kHz 10 MAX. Fo±10kHz 12 MAX. Pass Bandwidth dB
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MSFC12-83-026K0
MSFC12-85-026K1
MSFB12-85-026K0
16MHz.
38MHz.
MSFB12-85-02840
Fo-120kHz
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1994 - Not Available
Abstract: No abstract text available
Text: 9µA at 120kHz. When CS = VCC, the logic is gated off and no supply current is drawn regardless of , windows of 12.5µs (â+â input) which occur at the maximum clock rate of 120kHz. Source Resistance , 4 5 CS/SHDN GND TA = 25°C VCC = 2.7V VREF = 2.5V fCLK = 120kHz 3V P1.3 SERIAL DATA , 2.7V (Note 4) 120 tCYC Total Cycle Time LTC1285, fCLK = 120kHz LTC1288, fCLK = 120kHz , CS Low Time During Data Transfer LTC1285, fCLK = 120kHz LTC1288, fCLK = 120kHz 2 2 µs
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LTC1285/LTC1288
12-Bit
1285/LTC1288
12-bit,
LTC1285
LTC1288
LTC1096/LTC1098
LTC1196/LTC1198
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2009 - Not Available
Abstract: No abstract text available
Text: âå°å LCD ããã« : 1.2V ~ 5.0V : 120kHz : 35kHz (ã«ã¹ã¿ã å) ä½æ¶è²»é»æµ : 310Î , ã·ã³ã㫠詳細å
容 120 120kHz 035 35kHz (ã«ã¹ã¿ã å) MR â£â¤-â , 3/9 XC6351A ã·ãªã¼ãº â é»æ°çç¹æ§ FOSCï¼ 120kHz é
ç® æ¶è²»é»æµ è , 120kHz XC6351A120Mï¼ â¡ 1 2 0 1 3 SOT-26 (TOP VIEW) ⢠â , ã·ã³ãã« çºæ¯å¨æ³¢æ° åå表è¨ä¾ 3 35kHz XC6351A035D* 2 120kHz
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XC6351A
JTR0801-003
XC6351Aã
OT-26
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1994 - interfacing ADC with 8051 and 8255
Abstract: intel 8051 Family with internal ADC MC6805S2 8255 interface with 8051 tc-038 HD637 HD64180 HPC16000 LTC1285 LTC1285CS8
Text: at 120kHz. When CS = VCC, the logic is gated off and no supply current is drawn regardless of the , of 12.5µs ("+" input) which occur at the maximum clock rate of 120kHz. Source Resistance The , 2.5V fCLK = 120kHz 3V P1.3 SUPPLY CURRENT (µA) 1µF Supply Current vs Sample Rate 1000 , Clock Frequency VCC = 2.7V (Note 4) 120 tCYC Total Cycle Time LTC1285, fCLK = 120kHz LTC1288, fCLK = 120kHz thDI Hold Time, DIN After CLK VCC = 2.7V tsuCS Setup Time CS Before
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LTC1285/LTC1288
12-Bit
1285/LTC1288
12-bit,
LTC1285
LTC1288
LTC1096/LTC1098
LTC1196/LTC1198
interfacing ADC with 8051 and 8255
intel 8051 Family with internal ADC
MC6805S2
8255 interface with 8051
tc-038
HD637
HD64180
HPC16000
LTC1285CS8
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out put 10v regulator
Abstract: No abstract text available
Text: VI = 8V to 20V, IO =200mA VI = 8V to 18V, f = 120KHz IO = 5mA to 500mA IO = 5mA to 200mA , , f = 120KHz IO = 5mA to 500mA IO = 5mA to 200mA Temperature Coefficient of Out put Voltage , =200mA VI = 11V to 25V, IO =200mA VI = 11.5V to 21.5V, f = 120KHz IO = 5mA to 500mA IO = 5mA to , = 12V to 22V, f = 120KHz IO = 5mA to 500mA IO = 5mA to 200mA Temperature Coefficient of Out , (TO220 package) VI = 12.5V to 28V, IO =200mA VI = 14V to 27V, IO =200mA VI = 13V to 23V, f = 120KHz
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GM78M00
500mA
GMM78MXX
500mA
J-STD-020.
900ppm
1500ppm
GM78M00V2
out put 10v regulator
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2003 - Not Available
Abstract: No abstract text available
Text: Loss Fo- 120kHz Fo±60kHz Fo+ 120kHz Fo±13kHz - Specifications 83.16 - - , ~+85 -3dB Fo10kHz Minimum Loss Fo- 120kHz Fo±60kHz Fo+ 120kHz Fo±10kHz MSFC12 0 3.5 59 33
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MSFC12-83-026K0
MSFC12-85-026K1
16MHz.
38MHz.
13kHz
Fo-120kHz
60kHz
120kHz
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2004 - XC6351A120M
Abstract: 1F sot26
Text: : 310A( 120kHz ) CE(Chip Enable) Function SOT-26 and USP-6B Packages APPLICATIONS Cellular and portable , Voltage Range : 1.2V ~ 5.0V Oscillation Frequency : 120kHz : 35kHz ( custom ) Low Supply Current : 310A , DESCRIPTION Oscillation Frequency Package Device Orientation SYMBOL 120 035 M D R L : 120kHz : 35kHz (custom , , Represents oscillation frequency MARK 3 2 0 1 OSCILLATION FREQUENCY 35kHz 120kHz PRODUCT SERIES , 120kHz PRODUCT SERIES XC6351A035D* XC6351A120D* Represents production lot number 0 to 9,A to Z
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120kHz)
OT-26
XC6351A
35kHz
XC6351A
XC6351A120M
1F sot26
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2005 - XC6351A
Abstract: USP-6B MARKING SO SOT26 Vin 1.2v charge pump sot SOT-26
Text: Operating Voltage Range : 1.2V ~ 5.0V : 90% Highly Efficient Low Power Consumption : 310A( 120kHz , : 120kHz : 35kHz ( custom ) voltages can be generated with only 2 external capacitors connected, GaAs , DESCRIPTION 120 : 120kHz 035 : 35kHz (custom) M : SOT-26 D : USP-6B R : Embossed , 35kHz 120kHz XC6351A035Mx XC6351A120Mx 3 2 Represents production lot number 0 to 9, A , 35kHz 120kHz USP-6B XC6351A035Dx XC6351A120Dx Represents production lot number 0 to 9,A
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120kHz)
OT-26
XC6351A
120kHz
35kHz
35kHz
XC6351A
USP-6B
MARKING SO SOT26
Vin 1.2v charge pump sot
SOT-26
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Not Available
Abstract: No abstract text available
Text: -700kHz 40 min. iv) fo-700kHz to fo-400kHz 30 min. v) fo-400kHz to fo- 120kHz 40 min. vi) fo- 120kHz to fo- 60kHz 20 min. 20 min. vii) fo+60kHz to fo+ 120kHz 40 min. viii) fo+ 120KHz to fo+150kHz ix) fo+150kHz to , . signal of fo±60kHz and fo± 120kHz by addition of ~20dBm each. (O p eratin g T e m p e ra tu re R ange: -
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800MHz
SAFC820T877
5MJ80T
-830MHz
875--895MHz
925--940MHz
960MHz
i090MHz
1300--2000MHz
828MHz)
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Not Available
Abstract: No abstract text available
Text: °C to 125°C Typ 4.75 25°C Min 100 Output Regulation VI = 8V to 18V, f = 120KHz , °C Typ 5.70 25°C Min 125 25°C Output Regulation VI = 9V to 18V, f = 120KHz IO = , Regulation VI = 13V to 23V, f = 120KHz IO = 1mA to 100mA mV 25°C 37 F = 10Hz to 100KHz 46 , 25°C Output Regulation VI = 15V to 25V, f = 120KHz IO = 1mA to 100mA 25°C F = 10Hz to , VI = 13V to 25V 10 125 Output Regulation mV VI = 15V to 25V, f = 120KHz IO = 1mA to
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100mA
GM78L00
100mA
OT-89
J-STD-020.
GM78L00V1
900ppm
1500ppm
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GM78L00
Abstract: GM78L05 1.2v to 24v
Text: 5.0 5.25 32 150 26 100 Output Regulation VI = 8V to 18V, f = 120KHz IO = 1mA to , Regulation VI = 9V to 18V, f = 120KHz IO = 1mA to 100mA 25 18 GM78L00V1.02 dB 16 80 , Output Regulation VI = 13V to 23V, f = 120KHz IO = 1mA to 100mA mV 25 37 F = 10Hz to , 15V to 25V, f = 120KHz IO = 1mA to 100mA 25 F = 10Hz to 100KHz 38 44 dB 19 90 , mV VI = 15V to 25V, f = 120KHz IO = 1mA to 100mA 25 38 F = 10Hz to 100KHz 44 dB
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GM78L00
100mA
100mA
GM78L00V1
OT-89
GM78L05
1.2v to 24v
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GM78L06 AYWW
Abstract: No abstract text available
Text: Current VI = 8V to 20V IO = 1mA to 40mA VI = 7V to 20V VI = 8V to 20V VI = 8V to 18V, f = 120KHz IO = 1mA , = 9V to 18V, f = 120KHz IO = 1mA to 100mA IO = 1mA to 40mA F = 10Hz to 100KHz 25°C 25°C 25°C 25°C 25 , 10.5V to 23V VI = 11V to 23V VI = 13V to 23V, f = 120KHz IO = 1mA to 100mA IO = 1mA to 40mA F = 10Hz to , 25V, f = 120KHz IO = 1mA to 100mA IO = 1mA to 40mA F = 10Hz to 100KHz 25°C 25°C 25°C 25°C 25°C 25 , 40mA VI = 13V to 25V VI = 14V to 24V VI = 15V to 25V, f = 120KHz IO = 1mA to 100mA IO = 1mA to 40mA F =
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GM78L00
100mA
voltageL00V1
OT-89
J-STD-020.
GM78L06 AYWW
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Not Available
Abstract: No abstract text available
Text: NOMINAL CASE SIZE Dx L Max. ESR @ + 25°C (mQ) 120kHz 10kHz-40kHz Max. RIPPLE @ + 85°C (A) 120kHz 10kHz-40kHz 16 WVDC @ + 85°C, SURGE = 20 V 3900.0* 80D392P016HA2D .866 x .984 [22.0 x , SIZE Dx L Max. ESR @ + 25°C (mQ) 120kHz 10kHz-40kHz Max. RIPPLE @ + 85°C (A) 120kHz , CAPACITANCE PART NUMBER (pF) Max. ESR @ + 25°C (m £2) 120kHz 10kHz-40kHz Max. RIPPLE @ + 85°C (A) 120kHz 10kHz-40kHz 250 WVDC @ + 85°C, SURGE = 300 V 100.0* 80D101P250JA2D .984 x
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80D102P100JD2D
80D222P050KA2D
80D391P200MB2D
80D682P050MD2D
80D102P200MD2D
80D222P063JD2D
80D392P050JE2D
80D820P250HA2D
80D103P035KE2D
80D222P080JE2D
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