vq 2.3 v6 datasheet and application note, data sheet, circuit, pdf, cross reference

Catalog Datasheet Results	Type	PDF	Document Tags

Abstract: V V I1 or I9 VS ± 15 V; VQ < VS IS I4 V2, V3, V7, V8 Tj Tstg 50 150 150 , IGND VI V6 Input voltage Inhibit input Junction temperature Storage temperature range , V V V 4; 15 4; 15 4; 15 VQ pp VQ pp VQ pp RI ± ± 1 5 M 4; 15 , Temperature coefficient of IIO 40 °C Tj + 85 °C Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation Noise voltage (DIN 45405, referred to input) VIO 50 uV/K ...	Original	25 pages, 1214.8 Kb	2465 P-DIP-16-2 P-DSO-20 Q67000-A8109 Q67000-A8334 TCA 150 TCA 150 t TCA 2465 vq 2.3 v6 datasheet abstract

Abstract: 2.5 ( 2)1) 1.5 2.5 (2)1) A A Supply current Ground current IS IGND VI V6 Tj Tstg 5 ( 2)1) 5.5 ( 2)1) 5.5 (2)1) 5 (2)1) A A I1 or I9 VS ± 15 V; VQ < , 0.25 100 1 nA uA 3; 14 3; 14 VQ pp VQ pp VQ pp RI ± 8.5 ±8 ±9 ± 8.5 ±8 , IIO 0.4 nA/K 3; 14 Slew rate of VQ for non-inverting operation Slew rate of VQ , ; 20 Noise voltage (DIN 45405, referred to input) Vn 3 uV 1; 12 V6 OFF V6 ...	Original	26 pages, 220.22 Kb	IEB00551 IEB00889 IEP00550 IEP00888 IES01367 P-DIP-16-2 P-DSO-20 SMD MARKING CODE V6- TCA 150 t tca 300 Q67000-A8109 marking code V6 surface mount diode Q67000-A8334 vq 2.3 v6 P-DSO-20-6 P-DSO-20-6 abstract

Abstract: current IS IGND VI V6 Tj Tstg 5 ( 2)1) 5.5 ( 2)1) 5.5 (2)1) 5 (2)1) A A I1 or I9 VS ± 15 V; VQ < VS IS I4 VS VS VS VS V V V2, V3, V7, V8 50 , 100 0.25 100 1 nA uA 3; 14 3; 14 VQ pp VQ pp VQ pp RI ± 8.5 ±8 , uV/K 2; 13 IIO 0.4 nA/K 3; 14 Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation SR 2 (0.5) V/us 8; 19 SR 2 (0.5 ...	Original	26 pages, 244.8 Kb	Q67000-A8334 Q67000-A8109 P-DSO-20 IEP00888 IEP00550 IEB00889 IEB00551 GPI05 P-DSO-20-6 P-DSO-20-6 abstract

Abstract: 1.0Vp_p v5=iov, vB=aov 2.0 3.5 5.0 dB jQy 2 V6 = 4.25V , Vq : 500kHz, LO Vp_p v5:5-iov 20 lOgOj^MAX. , av22/5T 2 V6 = 3.25V, V41=4.1V Ta = - 20 r 65 °C j -2.5 0 2.5 mV/:c K te T * y m & Vr^/VQ 2 V6=4.25V, Vq :4.0MHZ, 1.0Vp_p v5=iov, vB=aov 2.2 3.5 4.6 dB R £ T ^ 7* DG DGR 2 V6 : 3.3-à2V V6 : 3.58MHz , ^T'Jr-f ( A Í3 S ftë ) l7 2 V6 = 4.0V f Vq = 3.58 MHz CD Acsisfêfn^ 1.6 - - VP-P am s§ Siti! g TA7670P TA7670P , 1.8 5 0.62 1.9 5 2.3 0.7 7 2.4 2 VP-P a p « si £ fi R-Y/B-Y G-Y/B-Y 3 M ± Q85 a25 0.95 a3i 1.0 5 a38 ...	OCR Scan	15 pages, 558.89 Kb	skkm 0-12V TA7670P datasheet abstract

Abstract: Differential Input Resistance 3.2 1.4 2.3 kiî 0°C Note 10 3.5 1.7 2.6 kiì +25°C Input Common Mode Range , -3.0V; Notes: 4,5, 6, 7,8, 9) CHARACTERISTIC V6 - +4.0V V6 - +6.0V UNITS TEMP TEST CONDITIONS TYP , 5.7 6.3 V -55°C Note 3 4.7 5.7 6.3 V +25°C 4.7 5.7 6.3 V +125°C High Output Level +2.3 +4.0 , +25°C +75°C Note 3 High Output Level +2.3 +3.9 +4.3 V 0°C Vc - 10mV +2.5 +4.1 +4.5 V +25°C +2.8 +4.3 +4.8 V +75°C Low Output Level -2.2 -1.4 -1.8 V 0°C Vq = 10mV -2.0 -1.2 -1.6 V +25°C -1.7 ...	OCR Scan	3 pages, 78.98 Kb	ne515k NE515G NE515 NE515A datasheet abstract

Abstract: Vop Output pedestal - 5.0 100 mV Vth Threshold voltage 2.3 2.5 2.7 V Gv Voltage gain Sound f= 1 , 11PIN 11PIN 2 2 1 Vos, THD 2.3,4 Voc 2 1 2 Vos, THD 1,3,4 Voc 1 2 3 Vos, THD 1.2,4 Voc 1 1 4 Vos. , El M Vout - Oscilloscope O V 6 e f = 1 MHz ViN=0.5Vrms Value of V6 (V4) where DC voltage of V4 (V6) is Vcc, and when the AC element of each output pin switches from OFF to ON while V6 (V4 , } UJ O < IO > o o K D Q. ID o OUTPUT DC VOLTAGE VS. INPUT DC VOLTAGE (SOUND) 7 / Vq=1 [Vrms ...	OCR Scan	10 pages, 226.93 Kb	mitsubishi fx 11PIN sw3 357 SW1 357 sw5 357 sw2 357 M52472P circuit m52472p M52472P abstract

Abstract: 1 Vih Output Vi - 4.2 4.5 4.8 V 2 Vd Output V2 cf. OPEN 4.2 4.5 4.8 V 3 Vq Input v3 - 2.7 3.0 3.3 V 4 Comb adj V4 cf. OPEN 4.2 4.5 4.8 V 5 V1H Del v5 - 2.7 3.0 3.3 V 6 Y-\| Output v6 - 2.3 3.0 3.5 V 7 C Output v7 - 3.5 3.8 4.1 V 8 Y2 Output v8 - 2.3 3.0 3.5 V 9 N.C. Vg - - - - V 10 fsc C V10 , (0.45V) "V6 (0.4) /0.45V-0.4 ® vD b c 8.5V 4.5V @ Peak Clip b c 8.5V 4.5V 33 Vq , 4.5 4.8 V 23 GND - - - 0 - V 24 OH Output V24 - 4.2 4.5 4.8 V 25 VOH V25 - 5.0 5.3 5.5 V 26 vH V26 ...	OCR Scan	17 pages, 825.14 Kb	V20 OBO TA8748AN SW-11 TA8748AN abstract

Abstract: ) V6 // �-�U: // 7.9 V (Pin G) V6 7.9 V (Pin 8) va 7.2 V (Pin 10) , vio !:. / J- 7.2 V , (Pin .14) 7.9 V (Pin 18) V18 :VJ9 = 0V 7.9 V (Pin 18). VIS V19-12V V19-12V 7.9 V " (Pin 23) V23 V22 = 0V 7.9 V " (Pitt 23) V23 .�-� V22-12V V22-12V 7.9 V *1 M^surodéni^^Te inade Jfojt? eoch of Ich , 2 c h A THD , G "' c . & c a a a b a b V 6 2 c hB THD/ f' C ' 'V c b c a a a b b b V6 3 c h A , b b V3 %R2 // c c a c c a a a b a b V6 < K. ? C R 2 / c c a c c c a a a b b b V 6 c pi c c c ...	OCR Scan	5 pages, 226.5 Kb	PH 2896 P MFP24 LA7220M 2eha LA7220M abstract

Abstract: V 4 Comb adj V4 cf. OPEN 4.2 4.5 4.8 V 5 V1H Del v5 - 2.7 3.0 3.3 V 6 Y-\| Output v6 - 2.3 3.0 3.5 V 7 C Output v7 - 3.5 3.8 4.1 V 8 Y2 Output v8 - 2.3 3.0 3.5 V 9 N.C. Vg - - - - V 10 fsc C V10 - 4.2 , SW V20 cf. OPEN 0 0.03 0.5 V 21 fsc p Output V21 - 2.8 3.1 3.4 V 22 fsc F V22 - 4.2 4.5 4.8 V 23 GND , 22) 10 - - MHz V-\| h Input Frequency Characteristics V-IHout fv11 - (Note 23) 10 - - MHz VD out , TP1. (3) Get frequency to make output be - 3dB lower than that at f=1MHz. 23 Vih Input Frequency ...	OCR Scan	18 pages, 693.09 Kb	TP30 TA8748AN SW11 TA8748AN abstract

Abstract: 3.0 3.3 V 6 Y-\| Output v6 - 2.3 3.0 3.5 V 7 C Output v7 - 3.5 3.8 4.1 V 8 Y2 Output v8 - 2.3 3.0 , V21 - 2.8 3.1 3.4 V 22 fsc F V22 - 4.2 4.5 4.8 V 23 GND - - - 0 - V 24 OH Output V24 - 4.2 4.5 4.8 , 23) 10 - - MHz VD out fvd1 10 - - V2H Input Frequency VD out fvd2 - (Note 24) 10 - - MHz Vqh , (3) Get frequency to make output be - 3dB lower than that at f=1MHz. 23 Vih Input Frequency , , 0.45Vp.p (2) Measure TP6 Output Level of V6 (Vi). (3) Get ©V6 @V6 (Q.14V)(0.1V) /0.14V-0.1, @V6 (0.45V) - ...	OCR Scan	18 pages, 693.09 Kb	TP30 TA8748AN SW11 C869 TA8748AN abstract

Abstract	Saved from	Date Saved	File Size	Type	Download

Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer.
) : V(1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV VPW 90 * * - * * SRC=NCP1200 NCP1200 NCP1200 NCP1200;NCP1200 NCP1200 NCP1200 NCP1200;MOTOROLA;SMPS Controller;Low-cost 40kHz SYM=NCP1200 NCP1200 NCP1200 NCP1200 .SUBCKT NCP1200 NCP1200 NCP1200 NCP1200 1 2 3 4 SKIP RST OR3 * CURRENT SENSE * BVREF REF1 4 V=V(6) > 4.8V ? 4.8 : V(6) VFBM REF1 REF * .SUBCKT COMP2 1 2 3 * + - S B1 4 0 V=V(1) > V(2) ? 5V : 0 RD 4 3 100 CD 3 0 10P .ENDS COMP2 * 4 INPUT OR GATE * .SUBCKT OR3 1 2 3 6 B1 5 0 V= (V(1)>800M) \| (V(2)>800M) \| (V(3)>800M www.datasheetarchive.com/download/92687648-609098ZC/ncp1200isspice4.zip (Ncp1200.lib)	On Semiconductor	10/08/2006	50.29 Kb	ZIP	ncp1200isspice4.zip
) : V(1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV VPW 90 * * - * * SRC=NCP1200 NCP1200 NCP1200 NCP1200;NCP1200 NCP1200 NCP1200 NCP1200;MOTOROLA;SMPS Controller;Low-cost 40kHz SYM=NCP1200 NCP1200 NCP1200 NCP1200 .SUBCKT NCP1200 NCP1200 NCP1200 NCP1200 1 2 3 4 SKIP RST OR3 * CURRENT SENSE * BVREF REF1 4 V=V(6) > 4.8V ? 4.8 : V(6) VFBM REF1 REF * .SUBCKT COMP2 1 2 3 * + - S B1 4 0 V=V(1) > V(2) ? 5V : 0 RD 4 3 100 CD 3 0 10P .ENDS COMP2 * 4 INPUT OR GATE * .SUBCKT OR3 1 2 3 6 B1 5 0 V= (V(1)>800M) \| (V(2)>800M) \| (V(3)>800M www.datasheetarchive.com/download/29382915-608854ZC/ncp1200isspice4.zip (Ncp1200.lib)	On Semiconductor	19/06/2002	50.29 Kb	ZIP	ncp1200isspice4.zip
S1 1 2 3 4 S_S1 3 4 1 2 _S1 RS_S1 1 2 1G .MODEL _S1 VSWITCH Roff=1e6 Ron=1.0 Voff=3V Von=0V .ends S1 $ SR Flip Flop (RESET Dominant)* .SUBCKT SRFFLOP 1 2 3 4 100 CD2 3 0 10p IC = 0 ;Rreset 2 0 1Meg .ENDS SRFFLOP $ .SUBCKT 125ms 2 4 Tout cout D_D2 2 1 D1N4148 D1N4148 D1N4148 D1N4148 V_V3 3 0 4Vdc E_U9 4 0 VALUE {LIMIT(V(2,3)1E6 _C1 0 2 630n IC=0 .ENDS 125ms $ .SUBCKT PFC 1 2 3 13 14 * (1)skipout V2 www.datasheetarchive.com/download/84907668-609114ZC/ncp1230spice.zip (ncp1230.lib)	On Semiconductor	10/08/2006	3381.36 Kb	ZIP	ncp1230spice.zip
* DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV overlatch 2 3 4 5 6 source * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV over 2 3 4 5 (1) : V(1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100m (1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV .MODEL * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV .MODEL DCLAMP D BV=10 Cjo=15p www.datasheetarchive.com/download/52779216-609110ZC/ncp1216 isspice templates .zip (NCP1216 70W Flyback.DWG)	On Semiconductor	10/08/2006	114.52 Kb	ZIP	ncp1216 isspice templates .zip
2 Anode 15.6 TC=0,0 C_C1 2 Anode 0.5uF C_C2 3 4 0.08uF R_R3 4 Anode 10 TC=0,0 R_R2 2 3 100 TC=0,0 G_G1 2 Anode VALUE { V($GHB_0001, reference) * 0 )* .SUBCKT DFFLOPQ1 1 2 3 4 * D Clk Q Qbar E_Qbar 10 0 VALUE { IF (V(2) > 800mV) & (V(1 4 0 10p IC=0 RD2 20 3 100 CD2 3 0 10p IC = 5 ;Rreset 2 0 1Meg .ENDS DFFLOPQ1 $ D Flip Flop (Qbar set to 1)* .SUBCKT DFFLOPQb1 1 2 3 4 * D Clk Q Qbar E_Qbar 10 0 www.datasheetarchive.com/download/28647131-605842ZC/ncp4302spicemodel.rev1.zip (ncp1230.lib)	On Semiconductor	30/03/2009	5244.93 Kb	ZIP	ncp4302spicemodel.rev1.zip
1216 1 2 3 4 5 6 8 params: Fsw=65k Conso=940u * 1 Adj HV 8 * 2 FB NC - * 3 CS Vcc 6 * 4 Gnd * CURRENT SENSE * EBVREF REF1 4 Value = { IF ( V(6) > 4.8V, 4.8, V(6) ) } ; internal FB reference VFBM REF1 REF ; feedback current measure RFB REF 2 20k ; FB pull-up resistor * BCLIP ISET 4 V=V(2)/3.3 > V(901) ? V(901) : V(2)/3.3 ; internal 1V clamping diode + SS EBCLIP ISET 4 Value = { IF ( V(2)/3.3 > 1, 1, V(2)/3.3 ) }; internal 1V clamping diode no SS XCOMP2 LEBO ISET OVERI COMPNCP1216 COMPNCP1216 COMPNCP1216 COMPNCP1216 XPROPDEL www.datasheetarchive.com/download/82645571-609111ZC/ncp1216 orcad templates.zip (ncp1216.lib)	On Semiconductor	10/08/2006	30.04 Kb	ZIP	ncp1216 orcad templates.zip
=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV overlatch 2 3 4 5 6 7 8 XCOMP1 6 10 UVLO COMP2 X2 UVLO SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV over 2 3 4 5 6 7 8 XCOMP1 =(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV overlatch 2 3 4 5 6 7 8 XCOMP1 6 10 UVLO COMP2 X2 UVLO SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV over 2 3 4 5 6 7 8 XCOMP1 (1) : V(1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100m www.datasheetarchive.com/download/92687648-609098ZC/ncp1200isspice4.zip (NCP1200.DWG)	On Semiconductor	10/08/2006	50.29 Kb	ZIP	ncp1200isspice4.zip
=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV overlatch 2 3 4 5 6 7 8 XCOMP1 6 10 UVLO COMP2 X2 UVLO SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV over 2 3 4 5 6 7 8 XCOMP1 =(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV overlatch 2 3 4 5 6 7 8 XCOMP1 6 10 UVLO COMP2 X2 UVLO SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100mV over 2 3 4 5 6 7 8 XCOMP1 (1) : V(1)+100m * DRIVER SECTION * BDRVU 90 4 V=(V(PULSOK)>3V) & (V(Q)>3V) ? V(6) : 100m www.datasheetarchive.com/download/29382915-608854ZC/ncp1200isspice4.zip (NCP1200.DWG)	On Semiconductor	19/06/2002	50.29 Kb	ZIP	ncp1200isspice4.zip
(1)+100m ) } * DRIVER SECTION * EBDRVU 90 4 VALUE = { IF ( (V(PULSOK)>3V) & (V(Q)>3V), V(6 * * - * * $ .SUBCKT NCP1200 NCP1200 NCP1200 NCP1200 1 2 3 4 5 6 8 PARAMS: Fs=40k Adj FB CS Gnd Drv Vcc HV RST OR3 * CURRENT SENSE * EBVREF REF1 4 VALUE = { IF ( V(6) > 4.8V, 4.8, V(6) ) } VFBM REF1 COMP2 $ 4 INPUT OR GATE * .SUBCKT OR3 1 2 3 6 EB1 5 0 VALUE = { IF ( (V(1)>800M) \| (V(2 * .SUBCKT OR2 1 2 3 EB1 4 0 VALUE = { IF ( (V(1)>800M) \| (V(2)>800M), 5V, 0 ) } RD 4 3 100 CD 3 0 10P www.datasheetarchive.com/download/27606333-608883ZC/ddtncp1200orcad.zip (ncp1200.lib)	On Semiconductor	10/08/2006	67.41 Kb	ZIP	ddtncp1200orcad.zip
(1)+100m ) } * DRIVER SECTION * EBDRVU 90 4 VALUE = { IF ( (V(PULSOK)>3V) & (V(Q)>3V), V(6 * * - * * $ .SUBCKT NCP1200 NCP1200 NCP1200 NCP1200 1 2 3 4 5 6 8 PARAMS: Fs=40k Adj FB CS Gnd Drv Vcc HV RST OR3 * CURRENT SENSE * EBVREF REF1 4 VALUE = { IF ( V(6) > 4.8V, 4.8, V(6) ) } VFBM REF1 COMP2 $ 4 INPUT OR GATE * .SUBCKT OR3 1 2 3 6 EB1 5 0 VALUE = { IF ( (V(1)>800M) \| (V(2 * .SUBCKT OR2 1 2 3 EB1 4 0 VALUE = { IF ( (V(1)>800M) \| (V(2)>800M), 5V, 0 ) } RD 4 3 100 CD 3 0 10P www.datasheetarchive.com/download/79833746-608717ZC/ddtncp1200orcad.zip (ncp1200.lib)	On Semiconductor	19/06/2002	67.41 Kb	ZIP	ddtncp1200orcad.zip

Catalog Search Results

Extended Electronics Archive (Experimental)