500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
ATCA-02-900M-V Abracon Corporation General Purpose Inductor, visit Digikey Buy
ATCA-05-900M-V Abracon Corporation General Purpose Inductor, visit Digikey Buy

900mv

Catalog Datasheet MFG & Type PDF Document Tags

NTE2054

Abstract: NTE2032 application note ­V10 = 0V, Read Decoded Output ­12 ­ +12 mV Unadjusted Gain V11 ­V10 = 900mV, Read , Coefficient VI = 900mV, Gain Pot = 2.4k ­ 0.005 ­ %/°C Fast Mode Conversion Control Voltage , V10. Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. Note 2. Linearity is measured as a difference from a straight line drawn
NTE Electronics
Original

NTE2054

Abstract: NTE2032 0V, Read Decoded Output -12 - +12 mV Unadjusted Gain V11 -V10 = 900mV, Read , Coefficient VI = 900mV, Gain Pot = 2.4k - 0.005 - %/°C Fast Mode Conversion Control Voltage , V10. Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. Note 2. Linearity is measured as a difference from a straight line drawn
NTE Electronics
Original

g5933

Abstract: 10mA output current with a voltage drop of 900mV at 24V supply. Input Range: 8V to 24V Output , Supply Voltage ±3% Regulated Output 10mA Output Current with a Voltage Drop of 900mV Power Good
Global Mixed-Mode Technology
Original

M51503L

Abstract: 330D 52 60 dB Vcc = 2 V 60 Gre IW = 900mV,m, R///Ã, = 330 Q /75.Q 43 46 49 dB PltUTt ma*) THD=10%, Rj/R,- 330SÃ/75Q 175 220 mW THD lW = 900mV,â'žâ'ž = 330 Q/75 SJ 1.5 3.0 % N OUT flí/fi,-330D
-
OCR Scan

CA3162 pin diagram

Abstract: CA3162 OV, Read Decoded Output V ,-V 10 = 900mV, Read Decoded Output Notes 1 and 2 -12 646 -1 mV mV , Logic Zero State Vdigit Select = 4V at Logic Zero State V, = 0V, Zero Pot Centered V, = 900mV, Gain Pot , volts across V , to V10. Adjust zero potentiometer to give OOOmV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a straight
-
OCR Scan
Abstract: Decoded Output -12 - +12 mV Unadjusted Gain V, t-V, = 900mV, Read Decoded Output , V| = OV, Zero Pot Centered - 10 - nw°v Gain Temperature Coefficient V| = 900mV , zero potentiometer to give OOOmV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a straight line drawn through zero and -
OCR Scan
Abstract: output pulse meets the T3 pulse template. In E3 mode, the pulse amplitude varies from 900mV to 950mV. At 900mV the pulse is marginal to the E3 pulse template. Work Around: None 6. RECEIVER START UP PROBLEM Dallas Semiconductor
Original

HP5082-7433

Abstract: CA3162 Unadjusted Gain V11-V10 = 900mV, Read Decoded Output 846 - 954 mV Linearity Notes 1 and , Gain Temperature Coefficient VI = 900mV, Gain Pot = 2.4k - 0.005 - %/oC NOTES: 1. Apply 0V across V11 to V10 . Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a
Intersil
Original
CA3162 CA3162A CA3162E CA3161E HP5082-7433 ca3162e equivalent ca3162 IC CA3162AE CD4050B

ca3162e equivalent

Abstract: CA3161E Unadjusted Gain V11-V10 = 900mV, Read Decoded Output 846 - 954 mV Linearity Notes 1 and , Gain Temperature Coefficient VI = 900mV, Gain Pot = 2.4k - 0.005 - %/oC NOTES: 1. Apply 0V across V11 to V10 . Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a
Intersil
Original
ca3161e equivalent power one inverters block diagram CA3162 equivalent IC HP5082 7433 CD4511 hp5082-743 ISO9000

KA9270

Abstract: KA samsung Balance CB Vo = 0dBm -1.0 0 1.0 dB Open Loop Gain Gvo V, = 900mVrms -2.6 -0.6 1.0 dB Gain Adjusting Range Gvr V, = 900mV, S1, S2; ON 4.5 6 dB Mute Attenuation Ratio ATTmute V, = 900mV, Mute SW; ON
-
OCR Scan
KA9270 KA9270D KA samsung samsung filter 0012U

pin diagram IC CD4511

Abstract: HP5082-7433 Unadjusted Gain Vi 1 -Vio = 900mV, Read Decoded Output 846 - 954 mV Linearity Notes 1 and 2 -1 - +1 Count , Coefficient V| = 0V, Zero Pot Centered - 10 - nv/°v Gain Temperature Coefficient V| = 900mV, Gain Pot = , OOOmV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity
-
OCR Scan
pin diagram IC CD4511 DESCRIPTION ON IC CD4511 CA3161 HP5082-7433 ca3161 3 digit common-cathode 4 DIGIT LED DISPLAY .37 11 pins CD4511B CD4049B

HP5082-7433

Abstract: CA3162 Unadjusted Gain V11-V10 = 900mV, Read Decoded Output 846 - 954 mV Linearity Notes 1 and , Gain Temperature Coefficient VI = 900mV, Gain Pot = 2.4k - 0.005 - %/oC NOTES: 1. Apply 0V across V11 to V10 . Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a
Intersil
Original
CA3162 functional diagram COUNTER LED bcd data sheet IC 7433 nor gate 7433 bcd to 7 segment converter ca3162 equivalent CIRCUIT 1-888-INTERSIL

CA3162 equivalent IC

Abstract: ca3162e equivalent -12 - +12 mV Unadjusted Gain V11-V10 = 900mV, Read Decoded Output 846 - 954 , Centered - 10 - µV/oV Gain Temperature Coefficient VI = 900mV, Gain Pot = 2.4k - , reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is
Intersil
Original
CD4511B equivalent 5V 4 digit display led driver 12 pin ca3162e IC pin diagram of HP5082 display monolithic ca3162 hp5082-74

HP5082-7433

Abstract: CA3162 equivalent IC Unadjusted Gain V11-V10 = 900mV, Read Decoded Output 846 - 954 mV Linearity Notes 1 and , Gain Temperature Coefficient VI = 900mV, Gain Pot = 2.4k - 0.005 - %/oC NOTES: 1. Apply 0V across V11 to V10 . Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a
Harris Semiconductor
Original
EINT12 CA3161E HARRIS ca3161e IC U CD4511B CA3162E HARRIS pinout 3 digit 7 segment LCD CD4049UB CD4012B

H957

Abstract: smps control ic with 8 pin SO 900mV. Limits apply to each channel individually. Output Pulse (PWM Dimming) FS 90% tPW 90% DDIM = , , 10% - 90% ISW = 1.0A, 90% - 10% -RISET = 20.0k, VCH = 900mV RISET = 20.0k, VCH = 0 - 900mV RSET = 13.3k, VCH = 900mV EN = 0 IOUT = 20mA, DDIM = 100% VCH = 0.7 - 2.0V VCH = 2.0 - 10V IOUT = 30mA , 900mV across the linear current regulators (CH1 - 6). Therefore, the boost converters' output voltage (VBST) will be 900mV (VDO) Supertex inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 Tel
Supertex
Original
H957 smps control ic with 8 pin SO RX160 HV9957 DSPD-24QFNK74X4P050 A031609 DSFP-HV9957 A083111

H957

Abstract: TACT2 900mV. Limits apply to each channel individually. Output Pulse (PWM Dimming) FS 90% tPW 90% DDIM = , , 10% - 90% ISW = 1.0A, 90% - 10% -RISET = 20.0k, VCH = 900mV RISET = 20.0k, VCH = 0 - 900mV RSET = 13.3k, VCH = 900mV EN = 0 IOUT = 20mA, DDIM = 100% VCH = 0.7 - 2.0V VCH = 2.0 - 10V IOUT = 30mA , 900mV across the linear current regulators (CH1 - 6). Therefore, the boost converters' output voltage (VBST) will be 900mV (VDO) Supertex inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 Tel
Supertex
Original
TACT2 825 384 6 A062811
Abstract: Distortion Unit 60 65 73 80 V0 = OdBm Vt = 900mVrms -1.0 -2.6 0 -0.6 V, - 900mV, S1, S2; ON V, â  900mV, Mute SW; ON 4.5 40 6 50 dB V0 = OdBm V0 3 OdBm, Rq = 6000 -
OCR Scan
20-DIP-300A 20-SOP- 18-DIP-300B 20-SOP-300 20-SOP-375
Abstract: mV Unadjusted Gain V*| 1 -V 1o = 900mV, Read Decoded Output 846 - 954 mV , 10 - n v/°v Gain Temperature Coefficient V| = 900mV, Gain Pot = 2 .4 k il - 0.005 , reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is -
OCR Scan

bcom first year

Abstract: reference is the average current of all 6 channels at 900mV. Limits apply to each channel individually , , VCH = 900mV RISET = 20.0k, VCH = 0 - 900mV RSET = 13.3k, VCH = 900mV IOUT = 20mA, DDIM = 100% VCH = , gets its feedback from the active output channels, maintaining a minimum voltage of 900mV across the linear current regulators (CH1 - 6). Therefore, the boost converters' output voltage (VBST) will be 900mV , achieve 900mV at the channel with the open string. Eventually OVP or SLP activates, at which time those
Supertex
Original
bcom first year B032812

CA3162 equivalent IC

Abstract: HP5082-7433 V11-V10 = 0V, Read Decoded Output -12 - +12 mV Unadjusted Gain V11-V10 = 900mV, Read , 900mV, Gain Pot = 2.4k - 0.005 - %/oC NOTES: 1. Apply zero volts across V11 to V10. Adjust zero potentiometer to give 000mV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a straight line drawn through zero
Harris Semiconductor
Original
3-DIGIT DISPLAY 2N2907 2N3906 CD4056B

L4940D2T12-TR

Abstract: a1535 , 10% - 90% ISW = 1.0A, 90% - 10% -RISET = 20.0k, VCH = 900mV RISET = 20.0k, VCH = 0 - 900mV RSET = 13.3k, VCH = 900mV EN = 0 IOUT = 20mA, DDIM = 100% VCH = 0.7 - 2.0V VCH = 2.0 - 10V IOUT = 30mA , 900mV. Limits apply to each channel individually. Output Pulse (PWM Dimming) FS 90% tPW 90% DDIM = , 900mV across the linear current regulators (CH1 - 6). Therefore, the boost converters' output voltage (VBST) will be 900mV (VDO) Supertex inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 Tel
-
Original
L4940 L4940V5 L4940V85 L4940D2T5-TR L4940D2T85-TR L4940D2T10-TR L4940D2T12-TR a1535

vp251

Abstract: ti VP251 , 10% - 90% ISW = 1.0A, 90% - 10% -RISET = 20.0k, VCH = 900mV RISET = 20.0k, VCH = 0 - 900mV RSET = 13.3k, VCH = 900mV EN = 0 IOUT = 20mA, DDIM = 100% VCH = 0.7 - 2.0V VCH = 2.0 - 10V IOUT = 30mA , 900mV. Limits apply to each channel individually. Output Pulse (PWM Dimming) FS 90% tPW 90% DDIM = , 900mV across the linear current regulators (CH1 - 6). Therefore, the boost converters' output voltage (VBST) will be 900mV (VDO) Supertex inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 Tel
Texas Instruments
Original
vp251 ti VP251 12RSAT vp251 can SN65HVD251 SLLS545 PCA82C250 PCA82C251
Abstract: OV, Read Decoded Output V ,-V 10 = 900mV, Read Decoded Output Notes 1 and 2 -12 646 -1 mV mV , Logic Zero State Vdigit Select = 4V at Logic Zero State V, = 0V, Zero Pot Centered V, = 900mV, Gain Pot , volts across V , to V10. Adjust zero potentiometer to give OOOmV reading. Apply 900mV to input and adjust gain potentiometer to give 900mV reading. 2. Linearity is measured as a difference from a straight Omega Engineering
Original
PHCN-40 PHE-6510 PHEH-65-10 PHA-10
Showing first 20 results.