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Part Manufacturer Description Datasheet BUY
1N4699UR-1 Microsemi Corporation Zener Diode visit Digikey
TLZ20-GS08 Vishay Semiconductors Zener Diode visit Digikey
TLZ30A-GS08 Vishay Semiconductors Zener Diode visit Digikey
TLZ39D-GS18 Vishay Semiconductors Zener Diode visit Digikey
TLZ6V2-GS18 Vishay Semiconductors Zener Diode visit Digikey
TLZ7V5-GS18 Vishay Semiconductors Zener Diode visit Digikey

zener+8.9v

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: DN06028/D 3 Output Waveforms* Figure 2: 89V Output at Full Load (Left: Vin=108Vac, Right: Vin=132Vac) Figure 3: 89V Output 3V Ripple (Left: Vin=108Vac, Right: Vin=132Vac) Figure 4: 89V Output at Startup ON Semiconductor
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NCP1055 NCP1052 NCP1055ST136G MURS160T3 MMSD914T1 MMSZ5260BT1G NCP105x zener diode c5 595D106X9025B2 595D106X9025B2T AND8098/D NCP105X NCP105
Abstract: IZ= 5mA 20 IR1 VR= 7V 0.2 uA IR2 VR= 8.9V SZ*3 IZ= 5mA Operating Panasonic
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MA3100WA MA3100 zener 8.9v MA111
Abstract: IZ= 5mA 20 IR1 VR= 7.0V 0.2 uA IR2 VR= 8.9V SZ*3 IZ= 5mA Operating Panasonic
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MA3100WK
Abstract: VR= 8.9V Temperature coefficient of zener voltage 9.4 Unit uA 6.4 8.0 mV/°C Panasonic
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MA3100W ZENER Vr 3V 10W zener diode Mini type package 4-pin marking 10w
Abstract: Q7 V2 = Vbeq 7 + VsatQ6 Q6 8.9V 0.87V - V1 and V2 are concerned with output voltage , -98-D010 May 1998. DC MOTOR DRIVER KA3082 4. Drive Output Circuit PVCC V1 = 8.9V V1 V2 Q4 Samsung Electronics
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10-SIP 12v d.c. motor forward reverse diagram 12v dc motor control diagram 60a motor control 45 V dc motor drive circuit dc motor driver D010 PM-98-D010
Abstract: output. When pin #5 is "H" and pin #6 is "L", - V1 = VZD + VBEQ4 + VBEQ5 ·=· 8.9V - V2 = VBEQ 7 + , Q2 RL R1 VO1 R2 M VO2 Q6 Q3 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - VBEQ2 Fairchild Semiconductor
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KA3082B dc motor 9v VO29
Abstract: Vzd + VbeQ4 + VbeQ5 ·=· 8.9V - V2 = Vbeq 7 + VsatQ6 ·=· 0.87V V1 and V2 are related with the output , Q3 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - VBEQ2 VO2 = VQ6SAT VO = VO1 - VO2 = V1 - VBEQ1 - Fairchild Semiconductor
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FAN8082 KA3082N 8-DIP-300 zener s4 74
Abstract: Vzd + VbeQ4 + VbeQ5 ·=· 8.9V - V2 = Vbeq 7 + VsatQ6 ·=· 0.87V V1 and V2 are related with the output , PVCC V1 V2 Q4 Q1 Q2 Q5 RL R1 VO1 R2 M Q3 VO2 Q6 V1 = 8.9V V2 = Fairchild Semiconductor
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FAN8082DTF fan8082d 12v dc driver motor control diagram 12v DC motor driver DC MOTOR FAN8082D 8-SOP-225
Abstract: is "L", - V1 = VZD + VBEQ4 + VBEQ5 ·=· 8.9V - V2 = VBEQ 7 + VSATQ6 ·=· 0.87V V1 and V2 are related , R2 VO2 Q3 Q6 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - VBEQ2 VO2 = VQ6SAT VO = VO1 - VO2 = V1 Fairchild Semiconductor
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Abstract: 9.40 10.60 130 20 60 0.2 8.0 Operating resistance Reverse current IZ= 0.5mA Pl VR= 8.9V Panasonic
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Abstract: VbeQ5 ·=· 8.9V - V2 = Vbeq 7 + Vsat ·= 0.87V Q6 · V1 and V2 are concerned with output voltage , VO1 R2 VO2 M Q3 Q6 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - VBEQ2 VO2 = VQ6SAT VO = Fairchild Semiconductor
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Diagram SPEED of dc motor 180C DC VCR circuit diagram MIC-99D001
Abstract: #6 is "L", â'" V1 = Vzd + VbeQ4 + VbeQ5 '=. 8.9V â'" V2 = Vbeq 7 + VsatQ6 '=. 0.87V V1 and V2 are , -99D001 January 1999 FAIRCHILD SEMICONDUCTOR tm VCR PRODUCTS KA3082 4. DRIVE OUTPUT CIRCUIT pvcc Vi = 8.9V -
OCR Scan
toy motor 1.5 to 3 v 60i2 L01012 toy motor 1.5 to 3 v datasheet
Abstract: is "H" and pin #5 is "L", - V1 = Vzd + VbeQ4 + VbeQ5 ·=· 8.9V - V2 = Vbeq 7 + VsatQ6 ·=· 0.87V V1 and , Q1 Q4 V2 Q2 R1 VO1 RL M Q5 R2 VO2 Q3 Q6 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - VBEQ2 Fairchild Semiconductor
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MQ-5
Abstract: VBEQ4 + VBEQ5 ·=· 8.9V - V2 = VBEQ 7 + VSATQ6 ·=· 0.87V V1 and V2 are related with the output voltage , V1 Q5 Q2 RL R1 VO1 8 R2 M Q3 V1 = 8.9V V2 = 0.87V VO1 = V1 - VBEQ1 - Fairchild Semiconductor
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Abstract: V 130 VR= 8.9V Terminal capacitance Ct V 20 uA 60 VR= 0V, f Panasonic
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Abstract: 0.2 uA IR2 VR= 8.9V SZ*3 IZ= 5mA 60 4.5 Pl ea Note 1. Rated input/output Panasonic
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Abstract: 10.60 130 20 60 0.2 8.0 Operating resistance Reverse current IZ= 0.5mA VR= 7.0V VR= 8.9V IZ= 5mA Panasonic
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Abstract: IR2 SZ IZ= 0.5mA IZ= 5mA VR= 7V Pl VR= 8.9V IZ= 5mA 4.5 6.4 Temperature coefficient of Panasonic
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MA3A100
Abstract: IR1 VR= 7.0V 0.2 uA IR2 VR= 8.9V SZ*3 IZ= 5mA 60 4.5 Pl ea Note 1 Panasonic
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Abstract: = 8.9V IZ= 5mA Unit V 20 0.2 8 VR= 7V uA 60 4.5 Note 1. Rated input Panasonic
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