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cd7611cp

Abstract: chmc TA7607AP D7611 CHMC 37 CD7611 Shaoxing Silicore Technology d7607 CHMC IC ta7607
Text: Recommended Supply Voltage Vcc (VII) - - 10.8 12.0 13.2 V Supply Current Icc (111) 1 Vcc=12V 42 51 63 m A VIDEO DC Output Voltage VI2 1 Vcc=12V 5.2 5.5 5.S V AFT DC Output Voltage V5 1 Vcc=12V S\V: ON. SW2:ON 5.3 6.8 8.3 V AFT DC Output Voltage V6 1 Vcc=12V S\V: ON. SW2:ON 5.3 6.8 8.3 V AFT Output Offset Voltage V5-V6 1 Vcc=12V S\V: : ON. S W: : ON -1.5 0 1.5 V RF AGC Residual Output Voltage V4 SAT 1 Vcc=12V ,SW3:2 S\V4:1 — D7607 SW4:2 D7611 - - 0.5 V RF AGC Leak Current 14 LEAK Vcc=12V ,SW3:l SW4:1 D7611


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PDF CD7607CP/CD7611CP 58MHz cd7611cp chmc TA7607AP D7611 CHMC 37 CD7611 Shaoxing Silicore Technology d7607 CHMC IC ta7607
1997 - ana 650

Abstract: ic ana 650 M62290 M62290FP M62290L ana 650, 5PIN 400 to 6 DCDC Regulator 5.1 audio converter 6V 475 diode
Text: ··········1.1mA (max., Vcc=12V ) ·Built-in oscillator without peripheral devices (120KHz typ.) ·Built-in over , CHARACTERISTICS (Ta=25°C, Vcc=12V , unless otherwise noted) Block Symbol All block Vcc Supply voltage , ) CLM TERM. INPUT CURRENT vs. SUPPLY VOLTAGE 10 9 8 Vcc=6V 5.1 Vcc=12V 5.0 4.9 Vcc , CURRENT Iin(µA) SUPPLY CURRENT Icc(µA) 800 700 650 600 Vcc=16V Vcc=12V Vcc=6V 550 Vcc=6V Vcc=12V Vcc=16V 200 150 100 500 -40-20 0 20 40 60 80 100120140 TEMPERATURE Ta(°C


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PDF M62290L/FP M62290L M62290L/FP M62290FP 1mAIL100mA 1mAIL200mA 1mAIL500mA 1mAIL1000mA 6VVcc15V ana 650 ic ana 650 M62290 M62290FP M62290L ana 650, 5PIN 400 to 6 DCDC Regulator 5.1 audio converter 6V 475 diode
VCC-12V

Abstract: No abstract text available
Text: 24-12± 2 2.54 16.5± 1 10± 0.5 300± 1 7± 0.5 4 1.2 Max2 Vcc=12V Notes: 1 , optical characteristics(Ta=25 ) Parameter Symbol Condition Forward Current IF Vcc=12V 80.160 Vcc=12V 17000. 25000 Luminous Flux Reverse Current IR - 632 Vcc=12V Dominant Wavelength d Vcc=12V Vcc=12V 1/2 Max. - p Viewing Angle Typ. VR=10V Peak Wavelength Spectral Line Half-width Min. Vcc=12V 500 -


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PDF STR1-25R VCC-12V
Not Available

Abstract: No abstract text available
Text: - 174- TOSHIBA TA7659P NOTES '¡ote 1 Note 2 Note 3 Note 4 VCC=12V , SW1=0N, SW2=0N, SW3=2, SW4=2 (V1 4 =5V) VCC=12V , SW1=0FF, SW2=0FF, SW3=1, SW4=2 ( V ' i4=3V) Vcc=12V , SW1=0FF, SW2=0FF, SW3=2, SW4=1 (Vi4=5V) VCC=12V , VAGC(TP14 EXT. Applying Voltage)=3V PIF IN: f=58.75MHz no modulation Measure , DC Note 5 VCC=12V , VAGC=5V Measure PIF IN' same as Note 4 GR=L0G(PIF IN'/PIF IN) x 20dB Note 6 VCC=12V PIF IN; f=58.75MHz no modulation 15mVrms Measure DC level of TP14 Note 7 VCC=12V , VAGC=3.65V* PIF IN


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PDF TA7659P TA7659P 75MHz 100/iVrms 75MHz 100mVr VjP15
2009 - NJM2626

Abstract: NJM2626V SSOP20-C3 SSOP-16 05VTH
Text: PARAMETER ! General Operation Supply Voltage ( VCC=12V , Ct=1000pF, Cref=1µF, Ta=25°C) SYMBOL VCC , CHARACTERISTICS PARAMETER ( VCC=12V , Ct=1000pF, Cref=1µF, Ta=25°C) SYMBOL TEST CONDITION Output , ICC vs. VCC 25 20 Ta=25degC H1=H2=H3=0V output=Open OSC=1000pF Verr=0V 20 VCC=12V , =0V output=Open OSC=1000pF Verr=0V Vref=1mA 4.5 Ta=25degC VCC=12V output=Open OSC=1000pF Verr , Vref vs. Temperature 1 4.4 VCC=12V output=Open OSC=1000pF Verr=3.5V VCC=12V H1=H2=H3


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PDF NJM2626 NJM2626 30mA/-30mA 1000pF NJM2626V SSOP20-C3 SSOP-16 05VTH
TA7660P

Abstract: FP587 TA7611 ta7660
Text: 12.0 13.2 V Supply Current ICC(I11) 1 VCC=12V 42 51 63 mA Video DC Output Voltage Vl 2 1 V CC=12V Vcc=12V , SWi:O N , 5.2 5.5 5.8 V V5 AFT DC Output , V AFT Output Offset Voltage V 5 -V 6 1 VCC=12V , SWi:ON, -1.5 SW 2 :ON Vcc=12V , SW 3 :2 , - - 0.5 V VCC=12V , SW 3 :1, RF AGC Leakage Current I4 LEAK 1 SW 4 :1. TA7661P SW 4 :2 TA7660P - - 1 Video Sensitivity yi PIN1-16 VCC=12V , V 12=0 .8Vp-p 2 fp


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PDF TA7660P, TA7661P TA7660P/TA7661P TA7660P TA7661P TA7607AP/TA7611AP, 75MHz 100/iVrms FP587 TA7611 ta7660
vcc 12v

Abstract: No abstract text available
Text: 24-12± 2 2.54 16.5± 1 10± 0.5 300± 1 7± 0.5 4 1.2 Max2 Vcc=12V Notes: 1 , Vcc=12V 80.160 Vcc=12V 17000. 25000 mlm , Wavelength p Vcc=12V - 592 Dominant Wavelength d Vcc=12V Spectral Line Half-width Vcc=12V Viewing Angle 1/2 Vcc=12V Max. - 15 mA nm


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PDF STR1-25Y vcc 12v
EW710B

Abstract: EW712B
Text: =25 4.5 VCC 12 26.4 V H L BOP Vcc=12V 1 3 6 mT LH Brp Vcc=12V -6 -3 -1 mT Bh Vcc=12V 2 6 Vsat Vcc=12V ,OUT''L'',Isink=10mA Ileak Vcc=12V ,OUT''H'',Vout=12V Icc Vcc=12V ,OUT''H'' mT , 1.27 1.27 0.25 0.3mm 6 6 Vcc12V mT mT Bop 2 0 -2 Brp -4 -6 -60


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PDF EW710B EW712B Vcc12V EW710B EW712B
FP6326

Abstract: A11J GROUND Fault MONITORING CIRCUIT
Text: fitipower integrated technology lnc. Electrical Characteristics ( VCC=12V , TA=25°C, unless otherwise , =1V 0.1 AO µA 85 dB OSCILLATOR Frequency FOSC VCC=12V FP6326 250 300 350 kHz Frequency FOSC VCC=12V FP6326A 500 600 700 kHz VOSC VCC=12V Ramp , ILGATE VCC=12V , VLGATE =6V Lower Gate Sink RLGATE VCC=12V , VLGATE =1V Dead Time (Note2 , ) 60 80 Figure 5. Frequency vs. Junction Temperature 94 VCC=12V 44 VIN=5V 92 VOUT


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PDF FP6326/A FP6326/A 300kHz 600kHz FP6326/A-1 1-JUL-2009 MO-012-E. FP6326 A11J GROUND Fault MONITORING CIRCUIT
2008 - Not Available

Abstract: No abstract text available
Text: Specifications (1) 25 ºC, Vcc=12V , Vpd=5V, Icq=835mA, R7=0, 50 unmatched fixture Parameter Operational , , 12Vcc, Icq=850mA Return Loss +25 °C, Vcc=12V , Icq=850mA Gain vs. Temp 33 Magnitude (dB) 0 -5 Gain (dB) 36 34 32 30 28 1765 MHz, Vcc=12V , Icq=850mA 32 Gain (dB) 31 30 29 28 1700 , CDMA2000 SR1, 7FA , fc=1765 MHz, f=±885 kHz, Vcc=12V , Icq=850mA Frequency (MHz) Temperature (°C) ACPR vs. Frequency vs. Temp CDMA2000 SR1, 7FA , f=±885 kHz, 25 dBm Pout, Vcc=12V , Icq=850mA ACPR vs


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PDF AP504 AP504 CDMA2000 JESD22-A114 JESD22-C101 1-800-WJ1-4401
2005 - NJM2626V

Abstract: NJM2626 SSOP16
Text: *114.3*1.6mm, 2layers, FR-4) mounting s ELECTRICAL CHARACTERISTICS ( VCC=12V , Ct=1000pF, Cref=1µF, Ta , NJM2626 s ELECTRICAL CHARACTERISTICS ( VCC=12V , Ct=1000pF, Cref=1µF, Ta=25°C) Over Current Sense Section , CHARACTERISTICS ICC vs. Temperature ICC vs. VCC 20 25 VCC=12V H1=H2=H3=0V output=Open OSC , 12 14 16 18 20 VCC [V] -6- Ta=25degC VCC=12V output=Open OSC=1000pF Verr=3.5V 22 24 , CHARACTERISTICS dVFR vs. Temperature Vref vs. Temperature 1 4.4 VCC=12V output=Open OSC=1000pF Verr


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PDF NJM2626 NJM2626 NJM2626V 30mA/-30mA 1000pF NJM2626V SSOP16
ew432

Abstract: No abstract text available
Text: =25 H L BOP Brp Vcc=12V Bh 12 18 V 3 6 mT Vcc=12V LH 2.2 VCC Vcc=12V -6 -3 mT 6 mT Vsat Vcc=12V ,OUT''L'' 0.4 V Icc Vcc=12V ,OUT''H'' 8 mA Vd Vcc=12V ,OUT''H'' 20 mV RL , 100 6 Vcc12V 4 Ta 25 4 2 mT mT 140 6 Bop 0 -2 2 Bop


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PDF EW432 Vcc12V ew432
2005 - Class AB AMPLIFIER 4W

Abstract: No abstract text available
Text: Information DCS-band 4W HBT Amplifier Module Performance Graphs (AP503-PCB) Return Loss +25 °C, Vcc=12V , Icq=850mA Gain vs. Temp 1855 MHz, Vcc=12V , Icq=850mA 33 M a g n itu d e (d B ) 0 -5 36 , Frequency (MHz) ACPR vs. Output Power vs. Temp CDMA2000 SR1, 7FA , fc=1855 MHz, f=±885 kHz, Vcc=12V , Icq , Pout, Vcc=12V , Icq=850mA ACPR vs. Output Power vs. Temp CDMA2000 SR1, 7FA , fc=1855 MHz, f=±1.98 MHz, Vcc=12V , Icq=850mA -50 -55 -60 -65 -70 18 20 22 24 26 28 Total Output Power (dBm) ACPR vs


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PDF AP503 AP503 CDMA2000 850mA 1-800-WJ1-4401 Class AB AMPLIFIER 4W
2007 - EW412B

Abstract: No abstract text available
Text: Symbol Conditions Min. Typ. Max. Unit 3 Vcc=12V Vcc=12V Vcc=12V Vcc=12V ,OUT''L'' Vcc=12V ,OUT''H'' Vcc=12V ,OUT''H'' 7 10 5 1 -6 2 12 3 -3 6 0.4 6 20 13 26.4 6 -1 V mT mT mT V mA mV k Supply , Temparature Dependence of Bop. Brp 6 Vcc12V Operating Point mT Bop 2 0 -2 Brp -4 -6 -60 4 Supply Voltage


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PDF EW-412B 5000pcs/Reel) EW412B Vcc12V
2007 - Not Available

Abstract: No abstract text available
Text: Conditions Min. 3 Vcc=12V Vcc=12V Vcc=12V Vcc=12V ,OUT''L'',Isink=10mA Vcc=12V ,OUT''H'',Vout=12V Vcc=12V , Vcc12V Operating Point mT Bop 2 0 -2 Brp -4 -6 -60 4 Supply Voltage Dependence of Bop. Brp 6 4 2 0


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PDF EW-710B 500pcs/Reel) EW710B Vcc12V
2008 - Not Available

Abstract: No abstract text available
Text: Symbol Conditions Min. 4.5 Vcc=12V Vcc=12V Vcc=12V Vcc=12V ,OUT''L'',Isink=10mA Vcc=12V ,OUT''H'',Vout=12V Vcc=12V ,OUT''H'' 5 -20 10 0.4 1 8 Typ. Max. Unit 12 18 20 -5 V mT mT mT V A mA Supply Voltage , 0 -5 Bop Operating Point mT Operating Point mT Vcc12V l -10 -15 -40 Brp -20 0


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PDF EW-500 500pcs/Bag) EW500 Vcc12V
2008 - regulator BH RL

Abstract: EW-512 hall effect sensor EW-512 512 hall EW512 512 hall effect sensor mt marking EW 512 C marking Mt hall 512
Text: Characteristics Ta=25 Item Symbol Conditions Min. 4.5 Vcc=12V Vcc=12V Vcc=12V Vcc=12V ,OUT''H'' Vcc=12V ,OUT''L'',I Sink=10mA Vcc=12V ,OUT''H'' 7 1 -6 2 6 20 0.4 8 13 Typ. Max. Unit 12 18 6 -1 V mT mT mT mV V mA , Vcc12V Operating Point mT Bop Supply Voltage Dependence of Bop. Brp 6 Ta 25 Operating Point mT


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PDF EW-512 500pcs/Bag) EW512 Vcc12V regulator BH RL EW-512 hall effect sensor EW-512 512 hall 512 hall effect sensor mt marking EW 512 C marking Mt hall 512
2015 - FTDI USB UART I2S

Abstract: DMP2305
Text: connector 14 Li-Polymer battery connector 15 Programmer connector Page 5 VCC-1.2V VCC-1.2V C13 C41 C39 C38 C5 100nF 100nF 4.7uF 100nF 10uF 100nF VSYS VCC-1.2V VCC-3.3V R36 10K VCC-3.3V VCC-3.3V VCC-1.2V ADC3-GPIO8 GPIO47_MB1_RST GPIO28-MB1_CS , VCC-5V AN RST CS SCK MISO MOSI 3.3V GND GPIO18-LD2 VCC-1.2V C10 100nF GPIO2-T3 , 100nF R36 10K C42 100nF VCC-3.3V C13 100nF VCC-1.2V C41 C39 4.7uF 100nF VCC-1.2V


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PDF FT90x FT900 FT90x FTDI USB UART I2S DMP2305
2001 - b4570

Abstract: WSH41F
Text: 2.8 18 V Output Saturation Vout(sat) Vcc=12V , Ic=150mA 0.15 0.4 Voltage B > Bop V FG Saturation Vfg(sat) Vcc=12V , If=5mA 0.15 0.4 Voltage B > Bop Output Leakage Ileakage Vcc=12V , B < Brp uA <0.1 10 Current mA Supply Current Isupply Vcc=12V , Output & 6.0 10 FG Open Output / FG Rising Tr 3.0 us Vcc=12V , RL=820 10 Time CL=20Pf Output / FG Falling Tf us Vcc=12V , RL=820 0.3 1.5 Time CL=20Pf us Output / FG Time t Vcc=12V , RL=820 0.3 3 Differential CL


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PDF WSH41F 300mA OT-25 WSH41F OT-25 b4570
1999 - AN3336SB

Abstract: diode for 12v 3 amp
Text: Rec VCC=12V 48 mA mAP­P I17 Rec VCC=12V 17 32 LP Y­Rec. current output ratio I15/I17 Rec VCC=12V ­ 2.5 2.5 SP 8MHz f characteristics ratio I17H/I17 Rec VCC=12V ­4 LP 8MHz f characteristics ratio I15H/I15 Rec VCC=12V ­4 Rec. chroma output ratio I17C/I17 Rec VCC=12V ­15 SP Y­Rec. current output dB dB dB ­7 dB I36 PB VCC , circuit current I18 Rec VCC=12V (33) mA SP Y­Rec. current output I17 Rec VCC=12V


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PDF AN3336SB AN3336SB 36-Pin SSOP036-P-0450A) Pin35 Pin34 Pin11 Pin19 1449mW diode for 12v 3 amp
2005 - Not Available

Abstract: No abstract text available
Text: Information DCS-band 4W HBT Amplifier Module Performance Graphs (AP504-PCB) Return Loss +25 °C, Vcc=12V , Icq=850mA Gain vs. Temp 1765 MHz, Vcc=12V , Icq=850mA 35 M a g n itu d e (d B ) 0 -5 36 , Frequency (MHz) ACPR vs. Output Power vs. Temp CDMA2000 SR1, 7FA , fc=1765 MHz, f=±885 kHz, Vcc=12V , Icq , Pout, Vcc=12V , Icq=850mA ACPR vs. Output Power vs. Temp CDMA2000 SR1, 7FA , fc=1765 MHz, f=±1.98 MHz, Vcc=12V , Icq=850mA -50 -55 -60 -65 -70 18 20 22 24 26 28 Total Output Power (dBm) ACPR vs


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PDF AP504 AP504 CDMA2000 850mA 1-800-WJ1-4401
Not Available

Abstract: No abstract text available
Text: 23-12.5± 2 16.5± 1 10± 0.5 300± 1 7± 0.5 4 1.2 max2 + Vcc=12V - Notes: 1. All , =25 ) Parameter Symbol Condition Forward Current IF Vcc=12V 120.240 mA Vcc=12V 40000.60000 mlm Luminous Flux Reverse Current IR Min. Typ. VR=10V - - Max. 100 Unit µA Peak Wavelength p Vcc=12V - 525 - nm Dominant Wavelength d Vcc=12V 520 - 530 nm Vcc=12V -


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PDF STR1-24G
dc voltmeter circuit diagrams

Abstract: AN829P AC ammeter and ct diagram AC voltmeter diagram ac voltmeter circuit diagrams 12v AC to DC CIRCUIT DIAGRAM AC ammeter B20K ac voltmeter circuit schematics dc voltmeter Circuits
Text: Condition min. typ. max. Unit Gain (1) Gvi 1 Vcc=12V , f=lkHz, u, = 100mV, V.n,=5V 11.7 15.7 dB Gain (2) Gv2 1 Vcc=12V , f=lkHz, fi = 100mV, V,.nt=4V 10.5 15 dB Gain (3) Gv3 1 Vcc=12V , f=lkHz, V1 = 100mV, V„nt=3V -14 2 dB „ . „ Channel 2 Gain Ratio . . Channel 1 Gv3<2> Gv 3< 1 ) 1 Vcc=12V , f=lkHz, u, = 100mV, V<„n,=3V -6 6 dB Residual Noise Vo 1 Vcc=12V , f=lkHz, u, = 100mV, Ve = 1.0V, B = 20kHz 100 ßV Noise Un 1 Vcc = 12V, Ui =0V, Vc = 3.5V, B=20kHz 150 PV Crosstalk CT 5 Vcc=12V , f=lkHz, Ui


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PDF AN829P AN829P resistanceS600 10//A 201og; 100/iF 10//F1. dc voltmeter circuit diagrams AC ammeter and ct diagram AC voltmeter diagram ac voltmeter circuit diagrams 12v AC to DC CIRCUIT DIAGRAM AC ammeter B20K ac voltmeter circuit schematics dc voltmeter Circuits
2001 - sensor hall 502

Abstract: hall effect current sensor ic proximity sensor 01 g 402 regulator BH RL EW502 hall ic size g EW-500 EW-402 EW-400 EW-502
Text: Operate Point Bop Vcc=12V 5 20 0.45 Brp Vcc=12V ­20 ­5 0.6±0.1 1 Mark , Current 10 Bh mT Vsat Output"L", Vcc=12V 0.4 cc Output"H", Vcc=12V 8 , Operate Point Bop Vcc=12V 5 20 0.45 Brp Vcc=12V ­20 ­5 0.6±0.1 1 Mark , Current 10 Bh mT Vsat Output"L", Vcc=12V 0.4 cc Output"H", Vcc=12V 8


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PDF EW-402, EW-502 EW-402 10Gauss EW-400 EW-500 sensor hall 502 hall effect current sensor ic proximity sensor 01 g 402 regulator BH RL EW502 hall ic size g EW-402 EW-502
LB1645N

Abstract: lb1645 87332 ILB00310 ILB00309 ILB00308 ILB00307 ILB00306 ILB00305 ILB00304
Text: ± 1.6 2.2 - 25 75 - 55 125 unit V V 18 VCC1 VCC2 / Ta=25, VCC=12V , , RL= VCC=12V , IOUT=300mA VCC=12V , IOUT=500mA VCC=12V , IOUT=300mA VCC=12V , IOUT=500mA typ 6 , 1 6.8 ZD IN1 IN2 10 VCC=12V 0.01F M 0.1F ILB00305 No.1371-2/4 LB1645N , 1 ILB00306 ICC - VCC 8 VCC=12V 3.6 , VO(sat)1 - V 7 , ICC - mA VO(sat)1 , ICC - Ta 8 0.2 ILB00307 1.8 2.0 ILB00308 VO(sat)2 - IO 1.6 VCC=12V 1.4


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PDF LB1645N 1371C 3046C ILB00309 ILB00310 ILB00311 ILB00312 LB1645N lb1645 87332 ILB00310 ILB00309 ILB00308 ILB00307 ILB00306 ILB00305 ILB00304
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