The Datasheet Archive

Top Results (6)

Part ECAD Model Manufacturer Description Datasheet Download Buy Part
CUZ30V CUZ30V ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 30 V, USC
CUZ20V CUZ20V ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 20 V, USC
CEZ6V2 CEZ6V2 ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 6.2 V, ESC
CUZ6V8 CUZ6V8 ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 6.8 V, USC
CUZ12V CUZ12V ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 12 V, USC
MUZ5V6 MUZ5V6 ECAD Model Toshiba Electronic Devices & Storage Corporation Zener Diode, 5.6 V, USM

ZENER DIODE E1 Datasheets Context Search

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ZENER DIODE E1

Abstract: SCHEMATIC 10kw POWER SUPPLY THALER CORPORATION VRE302 VRE302A VRE302B VRE302C VRE302J VRE302K VRE302L
Text: to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This , /R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature , 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage is then , bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage , . The 6.3V zener diode is used because it is the most stable diode over time and temperature. Figure


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PDF VRE302 1-10Hz) VRE302 VRE310DS ZENER DIODE E1 SCHEMATIC 10kw POWER SUPPLY THALER CORPORATION VRE302A VRE302B VRE302C VRE302J VRE302K VRE302L
2007 - D635 sot

Abstract: D636 d633 Zener diode sot23-5 california micro D635 Zener diode sot23-5 Marking d635 TA 490
Text: typical Zener diode protects supply rail and eliminates the need for external by-pass capacitors Each I/O , positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP and VN, offering two , + L1 x d(IESD) / dt + L2 x d(IESD) / dt The CM1293A has an integrated Zener diode between VP and , breakdown voltage of the Zener diode . However, for the lowest possible VCL, especially when VP is biased at , Description The CM1293A family of diode arrays has been designed to provide ESD protection for electronic


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PDF CM1293A IEC61000-4-2 MSOP-10 D635 sot D636 d633 Zener diode sot23-5 california micro D635 Zener diode sot23-5 Marking d635 TA 490
precision reference zener diode

Abstract: Thaler VRE404 VRE402 VRE402A VRE402B VRE402C VRE402J VRE402K VRE402L
Text: schematic in figure 2 below. A FET current source is used to bias a 6.3V zener diode . The zener voltage is , resistor networks R3 and R4: G=1 + R4/R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature. The current source provides a closely regulated zener current, which , schematic in figure 2 below. A FET current source is used to bias a 6.3V zener diode . The zener voltage is , resistor networks R3 and R4: G=1 + R4/R3. The 6.3V zener diode is used because it is the most stable


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PDF VRE402 1-10Hz) VRE402 VRE410DS precision reference zener diode Thaler VRE404 VRE402A VRE402B VRE402C VRE402J VRE402K VRE402L
2006 - CM1293-04SO

Abstract: A1 D036 CM1293-02SR CM1293 D032 D033 sot23-5 footprint
Text: pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP , Zener diode protects supply rail and eliminates the need for external by-pass capacitors Each I/O pin , VP at the breakdown voltage of the Zener diode . However, for the lowest possible VCL, especially when , drastically increased negative voltage on the line being protected. The CM1293 has an integrated Zener diode , · · The CM1293 family of diode arrays has been designed to provide ESD protection for


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PDF CM1293 CM1293 MSOP-10 CM1293-04SO A1 D036 CM1293-02SR D032 D033 sot23-5 footprint
2006 - Not Available

Abstract: No abstract text available
Text: pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP , typical Zener diode protects supply rail and eliminates the need for external by-pass capacitors Each I , VP at the breakdown voltage of the Zener diode . However, for the lowest possible VCL, especially when , Zener diode between VP and VN. This greatly reduces the effect of supply rail L2 VP POSITIVE , • • The CM1293 family of diode arrays has been designed to provide ESD protection for


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PDF CM1293 CM1293 MSOP-10
2007 - d633 transistor

Abstract: D633 D635 sot Marking d635 D636 CM1293A-02SO D633 9 H d633 datasheet d636 transistor CM1293A-04SO
Text: either the positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP and VN , typical Zener diode protects supply rail and eliminates the need for external by-pass capacitors Each I , Information The CM1293A has an integrated Zener diode between VP and VN. This greatly reduces the effect of supply rail inductance L2 on VCL by clamping VP at the breakdown voltage of the Zener diode , · The CM1293A family of diode arrays has been designed to provide ESD protection for electronic


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PDF CM1293A CM1293A MSOP-10 d633 transistor D633 D635 sot Marking d635 D636 CM1293A-02SO D633 9 H d633 datasheet d636 transistor CM1293A-04SO
2003 - J201 spice

Abstract: dual P-Channel JFET sot23 2n4416 transistor spice LS3250A a7 surface mount diode J202 TRANSISTOR fet j310
Text: N-Channel Lateral DMOS JFET Switch With Zener Diode Protection High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection High Speed N-Channel Lateral DMOS JFET Switch High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection Quad High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection Quad High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode , DMOS JFET Switch With Zener Diode Protection(SMT) Quad High Speed N-Channel Lateral DMOS JFET Switch


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PDF LS3250 OT-23 J201 spice dual P-Channel JFET sot23 2n4416 transistor spice LS3250A a7 surface mount diode J202 TRANSISTOR fet j310
2012 - D636

Abstract: D636 b
Text: (VP) or negative (VN) supply rail. A Zener diode is embedded between VP and VN which helps protect the , Capacitance 1.5 pF Typical Zener Diode Protects Supply Rail and Eliminates the Need for External By-Pass , on the line being protected. The CM1293 has an integrated Zener diode between VP and VN. This greatly , Zener diode . However, for the lowest possible VCL, especially when VP is biased at a voltage , family of diode arrays has been designed to provide ESD protection for electronic components or


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PDF CM1293A CM1293A/D D636 D636 b
2005 - Not Available

Abstract: No abstract text available
Text: pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP , typical Zener diode protects supply rail and eliminates the need for external by-pass capacitors Each I , VP at the breakdown voltage of the Zener diode . However, for the lowest possible VCL, especially when , Zener diode between VP and VN. This greatly reduces the effect of supply rail L2 POSITIVE SUPPLY , Description • • The CM1293 family of diode arrays has been designed to provide ESD protection for


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PDF CM1293 CM1293 MSOP-10
2008 - Not Available

Abstract: No abstract text available
Text: missing sense resistor. An internal 5V Zener diode with a current rating of 10mA protects the sense amplifier inputs. The block diagram shows the orientation of this diode . The Zener diode provides clamping , the Zener current to 10mA. A 100k resistor limits the maximum Zener diode current to 4.5mA when VSENSE , input with Zener diode protection. Add an external protection resistor in series with LOAD if VSENSE , -Lead SOT-23 Package Outline (K1) 2.9x1.6mm body, 1.45mm height (max), 0.95mm pitch D e1 5 1 E1 Note 1


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PDF HV7801 500mV 700ns M0-178, DSFP-HV7801 NR062107
2008 - 5v ZENER DIODE

Abstract: marking K1 sot23-5 ZENER DIODE E1 Zener Diode SOT-23 HV7801 HV7801K1-G JESD51-7 MO-178 MO178 maximum zener diode current
Text: a short circuit condition, or a broken or missing sense resistor. An internal 5V Zener diode with , orientation of this diode . The Zener diode provides clamping at 5V for a positive VSENSE and at 600mV for a negative VSENSE. + VSENSE - R SENSE IN Under worst case conditions, limit the Zener current to 10mA. A 100k resistor limits the maximum Zener diode current to 4.5mA when VSENSE is 450V, whether , Zener diode protection. Add an external protection resistor in series with LOAD if VSENSE exceeds the


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PDF HV7801 HV7801 500mV 700ns DSFP-HV7801 A120308 5v ZENER DIODE marking K1 sot23-5 ZENER DIODE E1 Zener Diode SOT-23 HV7801K1-G JESD51-7 MO-178 MO178 maximum zener diode current
2007 - 5v ZENER DIODE

Abstract: opamp 555 jedec M0178 ZENER DIODE E1 HV7801 HV7801K1-G JESD51-7 marking K1 sot23-5
Text: conditions, such as a short circuit condition, or a broken or missing sense resistor. An internal 5V Zener diode with a current rating of 10mA protects the sense amplifier inputs. The block diagram shows the orientation of this diode . The Zener diode provides clamping at 5V for a positive VSENSE and at 600mV for a , resistor limits the maximum Zener diode current to 4.5mA when VSENSE is 450V, whether positive or negative , prevent excessive loading. Sense amplifier input. High impedance input with Zener diode protection. Add


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PDF HV7801 HV7801 500mV 700ns M0-178, DSFP-HV7801 A042307 5v ZENER DIODE opamp 555 jedec M0178 ZENER DIODE E1 HV7801K1-G JESD51-7 marking K1 sot23-5
2007 - L243

Abstract: marking VAR SOT23-5
Text: capacitance between signal pin and adjacent signal pin - 0.11pF typical Zener diode protects supply rail and , negative ESD current pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is , by clamping VP at the breakdown voltage of the Zener diode . However, for the lowest possible VCL , being protected. The CM1224 has an integrated Zener diode between VP and VN. This greatly reduces the , lead-free packages Product Description The CM1224 family of diode arrays has been designed to provide


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PDF CM1224 IEC61000-4-2 MSOP-10 MSOP-10 L243 marking VAR SOT23-5
2005 - marking L2 SOT23 6

Abstract: Marking D2 SOT23-6 D038 CM1293-04SO SOT23-6 MARKING 310
Text: capacitance 1.5pF typical Zener diode protects supply rail and eliminates the need for external by-pass , negative ESD current pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is , VP at the breakdown voltage of the Zener diode . However, for the lowest possible VCL, especially when , Zener diode between VP and VN. This greatly reduces the effect of supply rail L2 VP POSITIVE , version available Product Description The CM1293 family of diode arrays has been designed to provide


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PDF CM1293 IEC61000-4-2 MSOP-10 marking L2 SOT23 6 Marking D2 SOT23-6 D038 CM1293-04SO SOT23-6 MARKING 310
2008 - L242

Abstract: A1 SOT23 L243 l244 marking 003 sot143 CM12 marking CH1 sot 89 marking NC sot23 SOT143 package sot23-6 package marking ab
Text: pulse to either the positive (VP) or negative (VN) supply rail. A Zener diode is embedded between VP , differential signals Zener diode protects supply rail and eliminates the need for external by-pass capacitors , of the Zener diode . However, for the lowest possible VCL, especially when VP is biased at a voltage , line being protected. The CM1224 has an integrated Zener diode between VP and VN. This greatly , · · The CM1224 family of diode arrays has been designed to provide ESD protection for


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PDF CM1224 CM1224 capaci028 MSOP-10 L242 A1 SOT23 L243 l244 marking 003 sot143 CM12 marking CH1 sot 89 marking NC sot23 SOT143 package sot23-6 package marking ab
2003 - Dual pnp Dual npn Transistor

Abstract: n-channel JFET sot23-6 surface mount pico-amp diode dual P-Channel JFET sot23 A1 sot23 n-channel dual Channel JFET sot23 "Dual npn Transistor" LS841 SOIC J110 spice A6 SOT-23 MOSFET P-CHANNEL
Text: N-Channel Lateral DMOS JFET Switch With Zener Diode Protection High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection High Speed N-Channel Lateral DMOS JFET Switch High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection Quad High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode Protection Quad High Speed N-Channel Lateral DMOS JFET Switch With Zener Diode , DMOS JFET Switch With Zener Diode Protection(SMT) Quad High Speed N-Channel Lateral DMOS JFET Switch


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PDF LS3550 OT-23 Dual pnp Dual npn Transistor n-channel JFET sot23-6 surface mount pico-amp diode dual P-Channel JFET sot23 A1 sot23 n-channel dual Channel JFET sot23 "Dual npn Transistor" LS841 SOIC J110 spice A6 SOT-23 MOSFET P-CHANNEL
2011 - Marking L2 Packaging SOT23-6

Abstract: L242 TOP marking sot23-6 MARKING X1 SOT23-6 20 sot23-6 esd marking L2 SOT23 6 L242 3000 L243 marking L2 SOT23-6 X1 SOT23-6
Text: (VP) or negative (VN) supply rail. A Zener diode is embedded between VP and VN, offering two , has an integrated Zener diode between VP and VN. This greatly reduces the effect of supply rail inductance L2 on VCL by clamping VP at the breakdown voltage of the Zener diode . However, for the lowest , family of diode arrays has been designed to provide ESD protection for electronic components or , Voltage Channel Input Capacitance Matching of 0.02 pF Typical is Ideal for Differential Dignals Zener


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PDF CM1224 CM1224/D Marking L2 Packaging SOT23-6 L242 TOP marking sot23-6 MARKING X1 SOT23-6 20 sot23-6 esd marking L2 SOT23 6 L242 3000 L243 marking L2 SOT23-6 X1 SOT23-6
2006 - 230v to 12v dc smps circuit diagram

Abstract: VOLTAGE REGULATOR 230V circuit diagram SR03x 230v ac dc smps circuit TL431 zener Circuit diagram of 12v 10W LED drive diode P6KE Transistor AC 187 230v to 12v regulator circuit circuit diagram of igbt based smps power supply
Text: consists of a Zener diode , a resistor and a bipolar transistor. The regulated voltage, Vout1, is determined by the Zener diode voltage minus the base-to-emitter voltage drop of 0.6V. Figure 3 uses a 5.6V Zener diode to obtain a 5.0V output. Different Zener diode voltages can be used to obtain different regulated , Coils with Zener Diode Clamp The circuit shown in Figure 6 uses the SR037 to supply a regulated 5.0V for the logic control circuitry. A 5.1V Zener diode is used in parallel with the 5.0V relay coil to


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PDF SR036/SR037 SR036 SR037 SR036 SR03x 230VAC 120VAC MPSA06 230v to 12v dc smps circuit diagram VOLTAGE REGULATOR 230V circuit diagram 230v ac dc smps circuit TL431 zener Circuit diagram of 12v 10W LED drive diode P6KE Transistor AC 187 230v to 12v regulator circuit circuit diagram of igbt based smps power supply
2001 - THALER CORPORATION

Abstract: VRE304 VRE304A VRE304B VRE304C VRE304J VRE304K VRE304L
Text: discussion refers to the schematic in figure 2 below. A FET current source is used to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage is then applied to , output. The gain is determined by the resistor networks R3 and R4: G=1 + R4/R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature. This network is less than 2% of , provides a closely regulated zener current, which determines the slope of the references' voltage vs


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PDF VRE304 1-10Hz) VRE304 VRE304DS THALER CORPORATION VRE304A VRE304B VRE304C VRE304J VRE304K VRE304L
Not Available

Abstract: No abstract text available
Text: bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage , . The 6.3V zener diode is used because it is the most stable diode overtime and temperature. The current source provides a closely regulated zener current, which determines the slope of the references’ voltage vs. temperature function. By trimming the zener current a lower drift over temperature can be , 12.8 13.0 .098 .102 2.48 2.59 E1 .397 .403 10.0 10.2 .046 .051


OCR Scan
PDF VRE305 1-10Hz) VRE305 VRE3050S
2012 - mark G1 SOT-23

Abstract: sot-23 MARKING CODE G1 G1 SOT23 sot-23 MARKING CODE IGs DSPD-5SOT23K1 LP1030
Text: voltage Integrated gate-to-source resistor Integrated gate-to-source Zener diode Low input capacitance , integrated gate-to-source resistor and gate-to-source Zener diode . This allows the device to be easily driven , Gate-to-source Zener voltage Zero gate voltage drain current On-state drain current Static drain-to-source , delay time Rise time Turn-off delay time Fall time Diode forward voltage drop Reverse recovery time , ) D e1 5 2.90x1.60mm body, 1.45mm height (max), 0.95mm pitch 1 E1 E Note 1 (Index Area D/2 x E1


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PDF LP1030D LP1030D DSFP-LP1030D NR101512 mark G1 SOT-23 sot-23 MARKING CODE G1 G1 SOT23 sot-23 MARKING CODE IGs DSPD-5SOT23K1 LP1030
2001 - Not Available

Abstract: No abstract text available
Text: to the schematic in figure 2 below. A FET current source is used to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage is then applied to the , gain is determined by the resistor networks R3 and R4: G=1 + R4/R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature. The current source provides a closely regulated zener current, which determines the slope of the references' voltage vs. temperature function. By


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PDF VRE303 1-10Hz) VRE303DS
2006 - Not Available

Abstract: No abstract text available
Text: is used to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2 , . The 6.3V zener diode is used because it is the most stable diode over time and temperature. The current source provides a closely regulated zener current, which determines the slope of the references' voltage vs. temperature function. By trimming the zener current a lower drift over temperature can be , .020 .395 MAX .120 .105 .027 .065 .020 .040 .405 MILLIMETER MIN MAX DIM D1 E E1 E2 P S INCHES MIN .372


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PDF VRE304-6 1-10Hz) VRE304-6DS
2001 - VRE302J

Abstract: VRE302 VRE302A VRE302B VRE302C VRE302K VRE302L
Text: to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This , /R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature , regulated zener current, which determines the slope of the references' voltage vs. temperature function. By trimming the zener current a lower drift over temperature can be achieved. But since the voltage , .051 1.14 1.29 E1 .397 .403 10.0 10.2 C .107 .113 2.71 2.89 E2


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PDF VRE302 1-10Hz) VRE302 VRE302DS VRE302J VRE302A VRE302B VRE302C VRE302K VRE302L
2001 - VRE305A

Abstract: VRE305B VRE305C VRE305J VRE305K VRE305L THALER CORPORATION
Text: discussion refers to the schematic in figure 2 below. A FET current source is used to bias a 6.3V zener diode . The zener voltage is divided by the resistor network R1 and R2. This voltage is then applied to , output. The gain is determined by the resistor networks R3 and R4: G=1 + R4/R3. The 6.3V zener diode is used because it is the most stable diode over time and temperature. This network is less than 2% of , provides a closely regulated zener current, which determines the slope of the references' voltage vs


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PDF VRE305 1-10Hz) VRE305 VRE305DS VRE305A VRE305B VRE305C VRE305J VRE305K VRE305L THALER CORPORATION
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