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bl0921

Abstract: PIN14 ENL16
Text: BL0921 12.5% Pin12FAULT BL0921 Pin14CF REVPFAULT Pin16 , V1A,V1B,V1N V2N,V2P 2.3 30 mA Pin14 ,13 ,12 5 V 10 4 CF,REVP , 16 ENL16 ±660mV; ±660mV 500:1 Pin14 0.1 % Pin14 0.1 % 37° (PF=0.8 ) Pin14 0.1 0.3 % 60° (PF=0.5 ) Pin14 0.1 0.3 % 8 ISTART Ib=5A ,C=3200, Pin14 0.2%Ib A cos=1 ±110mV 16 9 % 10 ENP Gain error 11 http


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PDF BL0921 Pin12FAULT Pin14CF Pin16 Pin15F2 Pin13REVP bl0921 PIN14 ENL16
2000 - NTE701

Abstract: V11L dip 16 pin15 vcc sync separator for monochrome tv
Text: , Pin12: 40k to 12V, Pin13: 22k to 5V, Pin14 : 1k to 2.95V, Pin16: 1k to 2.2V, Measure Pin15 0.75 ­ , : 2.2k to 5V, Pin14 : 1k to 2.95V, Pin15: 1k to 5.3V, Measure Pin11 ­20 ­ +20 µA Reverse Tuner Leakage Current I12 Pin11: 10k to GND, Pin12: 10k to 12V, Pin13: 2.2k to 5V, Pin14 : 1k to , Pin11: 10k to GND, Pin12: 10k to 12V, Pin13: 2.2k to 5V, Pin14 : 1k to 2.95V, Pin15: 1k to 5.3V , , Pin12: 3.16k to 12V, Pin13: 2.2k to 5V, Pin14 : 1k to 2.95V, Pin15: 1k to 7.9V, Measure Pin11 0.8


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PDF NTE701 NTE701 10sec V11L dip 16 pin15 vcc sync separator for monochrome tv
BL0930

Abstract: No abstract text available
Text: , REVP BL0930 , ,(Pin12) , BL0930 2.5V±8% 30ppm/ BL0930 Pin14 , MA 2.7 30 6 V1P,V1N V2N,V2P V Pin14 ,12 pF V ppm/°C Pin5,4, 3,2 ±1 VAIN 330 6 V Kohm 10 pF 7 37° (PF=0.8 ) Pin14 0.1 (°) 60° (PF=0.5 ) Pin14 0.1 (°) 8 9 % Ib=5A C=1400, ENP Pin14 Vv=±110mV, V(I)=2mV, 0.0015 0.003 Pin14 % 0.1 % 4.1 V cos=1 Vv=±110mV, V(I)=2mV


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PDF BL0930 Pin12) 30ppm/ BL0930 Pin14 Pin15 Pin16
BL0930

Abstract: 4608
Text: , REVP BL0930 , ,(Pin12) , BL0930 2.5V±8% 30ppm/ BL0930 Pin14 , MA 2.7 30 6 V1P,V1N V2N,V2P V Pin14 ,12 pF V ppm/°C Pin5,4, 3,2 ±1 VAIN 330 6 V Kohm 10 pF 7 37° (PF=0.8 ) Pin14 0.1 (°) 60° (PF=0.5 ) Pin14 0.1 (°) 8 9 % Ib=5A C=1400, ENP Pin14 Vv=±110mV, V(I)=2mV, 0.0015 0.003 Pin14 % 0.1 % 4.1 V cos=1 Vv=±110mV, V(I)=2mV


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PDF BL0930 Pin12) 30ppm/ BL0930 Pin14 Pin15 Pin16 4608
2002 - Not Available

Abstract: No abstract text available
Text: #8 - Output1; Pin#14 - Vcc Pin#1 - Output2; Pin#7 - GND (case); Pin#8 - Output1; Pin#14 - Vcc Pin#1 - N/C; Pin#7 - Vee; Pin#8 - Output1; Pin#14 - GND (case) Pin#1 - Output2; Pin#7 - Vee; Pin#8 - Output1; Pin#14 - GND (case) OUTLINE DRAWING 20.8 MAX Pin 1 Location 0.8 0.46 6.35


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PDF XO14E XO14EA XO14EB XO14EAL XO14EBL XO14EC XO14ED 25xample XO14EAL-77M760-100G0: 14-pin
2000 - audio squelch circuit

Abstract: audio squelch can quadrature mixer Pin14 audio mixer NTE860
Text: to Pin14 ­ 0.01 1.0 µA Scan Control Current, Pin15 Pin14 High ­ 0.01 1.0 µA Pin14 Low 2.0 2.4 ­ mA Pin14 High ­ 5.0 ­ M Pin14 Low ­ 1.5


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PDF NTE860 NTE860 Pin14 Pin15 Pin14 audio squelch circuit audio squelch can quadrature mixer audio mixer
01747

Abstract: No abstract text available
Text: (PF=0.8 ) 60C (PF=0.5 ) 7 8 9 ( ) Ib=5A C=1400 ENP Vv=110mV V(I)=2mV cos= 3.5V ~ 5V Pin14 Pin14 Pin14 6 VAIN Pin23 4 5 VOH2 VOL2 IO2 Vref VDD=5V Pin7 IH=5mA IL=5mA VOL2 IO2 Pin12 IL , 0.003 (°) (°) % Pin14 0.1 % Vdown Pin14 3.9 4 4.1 V 1)% BL6525 Pin3 , BL6525 Pin8SCF Pin9S0 BL6525 +5V0V 660mV 467mV 100mV 660mV 467mV 100mV Pin13CF_VA Pin14CF


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PDF BL6525 15kHz 30ppm/ 01747
TEA1504

Abstract: pwm MOSFET "" ic tea1504 Pin1-4 PIN14 IVI60
Text: CTRL pin9 OOB( pin14 )/ Vi(pin1) IC Caux 3 / S1 OOB pin14 2.5V VOOB IC VI 350µA VOOB , , Vmains=80V R1 IC OOB pin14 IC 2W 4 / µP S2S3 S2 Cµc C0 Cµc (Vz) OOB IC """"" 3.3 µP S2


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PDF TEA1504 0276V 100mW DIP14) stand-byTEA1504 TEA1504 pwm MOSFET "" ic tea1504 Pin1-4 PIN14 IVI60
2007 - Not Available

Abstract: No abstract text available
Text: #8 - Output1; Pin#14 - Vcc Pin#1 - Output2; Pin#7 - GND (case); Pin#8 - Output1; Pin#14 - Vcc Pin#1 - N/C; Pin#7 - Vee; Pin#8 - Output1; Pin#14 - GND (case) Pin#1 - Output2; Pin#7 - Vee; Pin#8 - Output1; Pin#14 - GND (case) OUTLINE DRAWING 20.8 MAX Pin 1 Location 0.8 0.46 6.35


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PDF XO14E XO14EA XO14EB XO14EAL XO14EBL XO14EC XO14ED 25xample XO14EAL-77M760-100G0: 14-pin
nec2501

Abstract: BL0932 IN4007 5A nec-2501 Zener 5.1V BL0932BL0932B DIODE IN4007 R4R7 BL0932B pin13-14
Text: BL0932B BL0932 BL0932BL0932B BL0932B BL0932 BL0932B BL0932 -1.25V±8% 30ppm/ Pin8 ±5V Pin13 Pin14 25mW , BL0932 +5V0V -5V Pin10 Pin8 Pin9 Pin13 Pin14 Pin10 (IN) Pin8(OUT) Pin9(OUT) Pin13(OUT) Pin14 (OUT) +5V 125mS 1/16Pin8 125mS 1/16Pin8 +5V , *cos 2 Pin13 Pin14 Pin13, Pin14 1/16 Pin8 BL0932 1 125 15 2 BL0932


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PDF BL0932B BL0932 BL0932BL0932B 30ppm/ Pin13 Pin14 nec2501 BL0932 IN4007 5A nec-2501 Zener 5.1V BL0932BL0932B DIODE IN4007 R4R7 BL0932B pin13-14
PIN14-12

Abstract: Pin14 Pin1-4 tl-130 transformer
Text: ELECTRICAL CHARACTERISTICS: Inductance: ( PIN14-12 )=1.50mH Min @ lOOKHz ,50mV, 25° C Inductance: (PIN5-7)=1.20mH Min @ lOOKHz ,50mV, 25°C Turns Ratio: ( PIN14-12 ) : (PIN1-3)=1:1/1.26 ±5% Turns Ratio: (PIN5-7) : (PIN10-8)=1:2CT ±5% PRI DC Resistance: 0.70 Ohms Max @25° PIN 1-3 DC Resistance: 0.90 Ohms Max @25°C PIN 10-8 DC Resistance: 1.30 Ohms Max @25°C PRI / SEC Interwinding Capacitance : 40pF Max @ lOOKHz ,50mV Leakage Inductance: ( PIN14-12 )=0.50pH Max @ lOOKHz ,50mV SEC Shorted Leakage


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PDF PIN14-12) PIN10-8) 1500Vrms TMT50051CT TMD00052 PIN14-12 Pin14 Pin1-4 tl-130 transformer
tl-130 transformer

Abstract: No abstract text available
Text: ELECTRICAL CHARACTERISTICS: Inductance: ( PIN14-12 )=1.50mH Min @ lOOKHz ,50mV, 25° C Inductance: (PIN5-7)=1.20mH Min @ lOOKHz ,50mV, 25°C Turns Ratio: ( PIN14-12 ) : (PIN1-3)=1:1.15CT ±5% Turns Ratio: (PIN5-7) : (PIN10-8)=1:2CT ±5% PRI DC Resistance: 0.70 Ohms Max PIN1-3 DC Resistance: 1.10 Ohms Max @25°C PIN 10-8 DC Resistance: 1.30 Ohms Max @25°C PRI Interwinding Capacitance : 35pF Max @ lOOKHz ,50mV SEC Interwinding Capacitance : 40pF Max @ lOOKHz ,50mV Leakage Inductance: ( PIN14-12 )=0.60pH Max @


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PDF PIN14-12) PIN10-8) 1500Vrms TMT50050CT TMD00051 tl-130 transformer
2000 - NTE980

Abstract: 10V, 200mW, Zener 5.2V Zener Diode 4.6V zener diode
Text: Pin14 = Open, Pin5 = VDD Pin14 = VSS or VDD, Pin5 = VDD Output Low (Sink) Current Output High , ±10­5 ±0.1 µA ­ ±10­5 ±0.1 µA High Level VIHMax Input Current (Except Pin14 , 50 100 ns 15V ­ 40 80 ns Phase Comparator Section Pin14 (Signal In) Input , (Peak­to­Peak) Propagation Delay Time ( Pin14 to Pin13) High to Low Level Low to High Level 3­State Propagation Delay Time ( Pin14 to Pin13) High Level to Low Impedance Low Level to High Impedance Input


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PDF NTE980 NTE980 10kHz, Pin13) Pin14) 10kHz 10V, 200mW, Zener 5.2V Zener Diode 4.6V zener diode
SST49LF002A

Abstract: 32L-PLCC W49V002F WINBOND W49V002FP 82802AB PIN15
Text: A2 NC RESET# A9 A8 A7 A6 A5 A4 A3 A2 Pin11 Pin12 Pin13 Pin14 Pin15 Pin16 A1 , Pin4 Pin5 Pin6 Pin7 Pin8 Pin9 Pin10 Pin11 Pin12 Pin13 Pin14 Pin15 Pin16 Winbond SST , Assignment PART NO. Pin1 Pin2 Pin3 Pin4 Pin5 Pin6 Pin7 Pin8 Pin9 Pin10 Pin11 Pin12 Pin13 Pin14 , Assignment PART NO. Pin1 Pin2 Pin3 Pin4 Pin5 Pin6 Pin7 Pin8 Pin9 Pin10 Pin11 Pin12 Pin13 Pin14


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PDF Note-05 W49V002F SST49LF002A W49V002F SST49LF002A, SST49LF002A 32L-PLCC W49V002FP WINBOND W49V002FP 82802AB PIN15
HA12019

Abstract: Hitachi em HA1201 hitachi fluorescent Display driver
Text: HA12019 ■ELECTRICAL CHARACTERISTICS Item Symbol Test Conditions Min. Typ. Max. Unit Pin-14 Threshold Voltage (+ 8 dB) V,„ 14 V,n under Voltage 15V of pin-14 3.77 — V Pin-13 Threshold Voltage f , of pin-3 0.15 — V Pin-14 Indicating Deviation V,a( f 8dBi V,» 14/ Via 10 + 7 4 + 8.0 + 8.6 dB , 0V ow current of V„ at pin-14 8.0 14.3 mA Input Outflow Current (pin-15) I,L Outflow current , High-Voltage at pin-14 under 3V-suppIying to Ref. (pin-1). Von 14 V«,/=3.0V, V,„= 7. 5V Measure output


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PDF HA12019 in-14 in-14 in-13 in-13 in-12 in-12 in-11 in-11 in-10 HA12019 Hitachi em HA1201 hitachi fluorescent Display driver
2004 - max3232acse

Abstract: p61 female con40 DTR 4k7 BC547 PCA82C250T t1 BC547 R54K7 PIN80 dip 16 pin15 vcc
Text: Pin5 5 Pin6 6 Pin7 7 Pin8 8 Pin9 9 Pin10 10 Pin11 11 Pin12 12 Pin13 13 Pin14 14 , Pin6 Pin7 Pin8 Pin9 Pin10 Pin11 Pin12 Pin13 Pin14 Pin15 Pin16 Pin17 Pin18 Pin19 GND , Pin14 R15 15k 4 VCC JP24 Pin17 2 Reset RESET 12 9 11 10 JP1 SOT0 , 10 9 GND R11 [R] O N S2 ON DIP-8SW GND GND Pin14 X15 MD2 MD1 MD0 C29 , GND 8 TLE6259-2G Pin59 Pin58 Pin23 Pin25 Pin17 Pin14 Pin15 Pin16 1 2 3 4 5 6 7


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PDF 100NF Pin10 Pin11 Pin12 Pin13 Pin14 Pin15 Pin16 max3232acse p61 female con40 DTR 4k7 BC547 PCA82C250T t1 BC547 R54K7 PIN80 dip 16 pin15 vcc
sansui transformer

Abstract: No abstract text available
Text: terminal (13.14 pin) Please connect resistor to between pin-13 and pin-14 . Gain of power amp is adjust in , connecting variable resistor and fixed resistor to between pin-13 and pin-14 and to change frequency characteristic by ioading capacitor to between pin-14 and pin-25. However,470pF is connected to beween pin-14 and


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PDF in-17 in-18. sansui transformer
2000 - NTE738

Abstract: No abstract text available
Text: 11.5 V IS = 27mA ­ 9.2 ­ V Maximum Undistorted Chroma Output E(Pin3) = E( Pin14 ), Note 1 34 40 ­ dB Maximum Chroma Gain E(Pin3) = E( Pin14 ), Note 1 34 40 ­ , Control Range V(Pin3) V( Pin14 ) to 0V 50 60 ­ dB Regulated Voltage Test Conditions , Impedance V(Pin12) V( Pin14 ) to 4.3V Hue Control Range Oscillator Pull­In Range Oscillator Noise


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PDF NTE738 NTE738 25mVP Pin12) Pin14)
2001 - Not Available

Abstract: No abstract text available
Text: . . . . . . . . –0.1 to VP External DC Voltage Ranges, Vext Pin14 , Pin17, Pin14 . . . . . . . . , . . . . . . . . . . . –0.1 to VP+0.7V0 Average Output Current ( Pin14 , Pin17, Pin20), Io . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 50mA Peak Output Current ( Pin14 , Pin17 , €“ 2.2 V 1.2 1.4 1.6 V 5.8 6.5 6.8 V Current Outputs (Pin20, Pin17, Pin14 , scale tracking. Each output stage provides a current output (Pin20, Pin17 and Pin14 ) and a voltage


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PDF NTE7137 NTE7137
1998 - M62419FP

Abstract: 2.1 woofer circuit diagram R14-R17 M62436FP
Text: MITSUBISHI ELECTRIC (7/10) Between Pin14 (26) and Pin15(25) Add 10K of resistors between Pin14 (26 , Focus OFF. Also add 10K of resistors between Pin14 (26) and Pin15(25),can decrease the Focus gain , between Pin14 (26) and Pin15(25) Symbol VOMt VIM1 Maximum Input Voltage VIM2 VIM3 Gvt


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PDF M62436FP 36P2R M624TSUBISHI M62419FP 2.1 woofer circuit diagram R14-R17 M62436FP
Not Available

Abstract: No abstract text available
Text: 1. Dimensions: XFMRS XFADSL27A YYWW . 0.560 Max A 0.536 Max C X o m cd LO o F 0.100 0.020 SQ Typ G 5 1 U -I 0.400 D D Q. O I o CM 6 10 (BOTTOM VIEW) 2. Schematic: Chip Line 3.Electrical Specifications: ®25°C PIN1-4 OCL: 1.5mH ±5% @10KHz 0.1V OmAdc PIN1-4 LL: 15uH Max @100KHz 100mV (Short10-7) PIN1-10 Cw/w: 35pF Max @100KHz 100mV TURNS RATIO: (10-7):(1-4) = 1:1.95±2% DC Res.: Pins 1-4 2.0 Ohms Max DC Res.: Pins 10-7 0.55 Ohms Max LONGITUDINAL BALANCE: 60dB Min @100KHz THD: —80dB Max ©100KHz


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PDF XFADSL27A 10KHz 100KHz 100mV Short10-7) PIN1-10 100mV
2003 - w016

Abstract: SL1018 3By marking bu 11 af SSG 23 TRANSISTOR muting mute detector 400H B260M ZIP16
Text: and the output is developed at pin14. The inverted output of the signal meter drive output is , output voltage( pin14 ) to 500 the pin6 through a high resistance(20k ) The muting drive output is , (continued) Furthermore, varying the value of a resistor connected between the pin14 and pin16 changes the , connected between the pin14 and the pin6. However, if the resistor is too high, the muting control current , between the pin14 Pin14 ,15,16 Voltage(V) and the pin6 is about 22k. 5 V 4 15 3 2 1


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PDF SL1018 SL1018 400Hz -75KH -75KHz KSI-W016-000 w016 3By marking bu 11 af SSG 23 TRANSISTOR muting mute detector 400H B260M ZIP16
2007 - 3 phase energy meter circuit diagram

Abstract: BL0929 static energy meter circuit diagram smart meter circuit diagram digital capacitance meter digital frequency meter circuit diagram circuit diagram digital frequency meter Single Phase Energy Meter ENL16 BL0955
Text: Pin14 12 Output High Voltage VOH2 IH=10mA Output Low Voltage VOL2 IL=10mA 5 , Gain=1 ENL1 Both Channels with Full-Scale Signal Pin14 0.1 0.4 % Gain=16 ENL16 ±660mV Over a Dynamic Range500 to 1 Pin14 0.1 0.4 % Channel 1 Lead 37° (PF=0.8Capacitive) Pin14 0.1 0.3 % Channel 1 Lags (PF=0.5Inductive) Pin14 0.1 0.3 % Phase Error , Vv=±110mV,V(I)= 2mV, cos=1 Vv=±110mV,V(I)= 2mV, cos=-1 Pin14 0.4 % 10 Gain Error


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PDF BL0929 BL0929 3 phase energy meter circuit diagram static energy meter circuit diagram smart meter circuit diagram digital capacitance meter digital frequency meter circuit diagram circuit diagram digital frequency meter Single Phase Energy Meter ENL16 BL0955
2006 - NTE1175

Abstract: NTE712 NTE1174
Text: Pin7 Quiescent Voltage at Pin13 and Pin14 V+ = 20.8V, Note 1 Pin13 connected to Pin14 , Note 2 , ) Correction Voltage at Pin13 Correction Voltage at Pin14 4.5MHz Output Note 3. Resistor from Pin6 to


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PDF NTE1174 NTE1174 14-Lead NTE1175 NTE712 Pin13 Pin14 NTE1175 NTE712
2004 - Metalink

Abstract: plan VBVT210A VBVT211A VBVT214A VBVT215A VBVT216A VBVT217A 3800 998
Text: PIN18 PIN17 PIN14 PIN13 PIN12 PIN11 + + + + - C DATE CODE D E J 10 G , RXF-US1 RXF-US2 B VBVT216A TXF-DS2 TXF-DS1 & DS3 PIN13 PIN14 PIN15 PIN16 PIN8 PIN7 , OUT + - PIN13 + + + + - PIN11 PIN12 PIN14 PIN6 PIN5 PIN4 PIN3 PIN2 PIN1


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PDF MTV9170/9172 VBVT210A VBVT211A VBVT214A VBVT215A VBVT216A VBVT217A Metalink plan VBVT210A VBVT211A VBVT214A VBVT215A VBVT216A VBVT217A 3800 998
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