NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: , and enable input with voltage monitoring capability. The gate drive is designed to operate up to 7.5V to enhance over all system efficiency. This user guide contains the schematic and bill of , IR3710M IR3710M data sheet. BOARD FEATURES · Vin = +12V Typical ( 8-19V input Voltage range. See note below , low input line an additional 10uF ceramic capacitor is recommended at input to handle higher ripple current) 1 IRDC3710-DF IRDC3710-DF CONNECTIONS and OPERATING INSTRUCTIONS A regulated +12V input supply ... | Original |
13 pages, |
SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A BAT54S FDUE1245-R50M IRF6720S2TRPBF pcb diagram for 12v charge controller schematic diagram 12v power supply BAS316 c15c IRDC3710-DF IRDC3710-DF abstract |
|
|||
| Abstract: , and enable input with voltage monitoring capability. The gate drive is designed to operate up to 7.5V to enhance over all system efficiency. This user guide contains the schematic and bill of , IR3710M IR3710M data sheet. BOARD FEATURES · Vin = +12V Typical ( 8-19V input Voltage range. Pls. see note , ) Note: At low input line an additional 10uF ceramic capacitor is recommended at input to handle higher ripple current) 1 IRDC3710-QFN IRDC3710-QFN CONNECTIONS and OPERATING INSTRUCTIONS A regulated +12V input ... | Original |
13 pages, |
2x10uF SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A power loss BAS316 BAT54S IRFH7932PbF ir3710 CJS-1200TB GRM188R61E105KA12D IRDC3710-QFN IRDC3710-QFN abstract |
|
|||
| Abstract: clamp levels of approximately 1.9V and 2.6V. See Figure 8 for the input schematic. If this input is not , power supply voltage that is proportional to the CRT voltage. See Figure 12 for the input schematic. V , flyback pulse with respect to the leading edge of H sync. See Figure 14 for the input schematic. V CAP , input based on the following (highest to lowest) priority: (1) separate H and V sync, (2) HV (composite , ), sync tip to black level 0.14 Vpp (min) DC clamp level, composite video input 2.0 VDC Clamp ... | OCR Scan |
9 pages, |
N28B LM1291N LM1291 HV Flyback schematic horizontal output transistor LM1291 abstract |
|
|||
| Abstract: schematic circuit of a two-phase synchronous-buck converter to implement the RT9607/A RT9607/A. The converter operates for the input rang from 5V to 12V. When layout the PC board, it should be very careful. The , rising/falling time with fast propagation delay from input transition to the gate of the power MOSFET. , Protection Propagation Delay 40ns Support High Switching Frequency Fast Output Rise Time 5V to 12V , the 12V power by low side MOS and cause power supply to go into over current shutdown to prevent ... | Original |
15 pages, |
mosfet a06 PHB83N03LT POWER MOSFET PHB95N03LT a06 mosfet rt9607 data RT9607A rt9607 RT9607/A RT9607 RT9607/A abstract |
|
|||
| Abstract: input and a 12V at 3A output. through a small resistor, as shown in the typical application diagram , distributed power system, the IC allows operation from 14V to 72V input voltage which range includes the , 14V to 72V Input Voltage Operating Range · Contains 100kHz Internal Oscillator, 2V Reference and , the input current to a user defined maximum value during overload operation. Additional functions include an under voltage lockout circuit to insure that sufficient input supply voltage is present before ... | Original |
7 pages, |
Unitrode Semiconductor 1n4148 1N4148 DIL-16 IRFZ34 U-167 UC2578 UC2578DP UC2578N UC3578 UC3578DP UC3578N 16 pin dp IRFZ34 mosfet UC2578 abstract |
|
|||
| Abstract: shows the schematic circuit of a two-phase synchronous-buck converter to implement the RT9602 RT9602. The converter operates for the input rang from 5V to 12V. D1 R1 L1 lgd2 = Cgd2 dV = C Vi+12V gd2 , When PWM input is floating (not connected), internal divider will pull the PWM to 1.9V to give the , 12V power by low side MOS and cause power supply to go into over current shutdown to prevent damage , Protection Internal Bootstrap Devices Small SOP-14 Package 5V to 12V Gate-Drive Voltages for Optimal ... | Original |
11 pages, |
RT9809-20CV RT9602 PHB95N03LT PHB83N03LT 2N7000 rt9809 PHB83N03 RT9237/A RT9241A/B RT9602 abstract |
|
|||
| Abstract: to implement the RT9602 RT9602. The converter operates for the input rang from 5V to 12V. (4 ) 1.2uH , 5V to 12V Gate-Drive Voltages for Optimal Efficiency Tri-State Input for Bridge Shutdown Supply , typical case. Assume a synchronous rectified BUCK converter, input voltage Vi = 12V, Vg1 = Vg2 = 12V , ), internal divider will pull the PWM to 1.9V to give the controller a recognizable level. The maximum sink , down 12V (or 5V) rapidly. It also required to switch drain current on and off with the required ... | Original |
11 pages, |
RT9809-20CV RT9602 PHB95N03LT PHB83N03LT 2N7000 RT9237/A RT9241A/B RT9602 abstract |
|
|||
| Abstract: synchronous rectified BUCK converter, input voltage Vi = 12V, Vg1 = Vg2 = 12V. The high side MOSFET is , schematic circuit of a two-phase synchronous-buck converter to implement the RT9602 RT9602. The converter operates for the input rang from 5V to 12V. www.richtek.com 8 When layout the PC board, it should , 12V power by low side MOS and cause power supply to go into over current shutdown to prevent damage , Bootstrap Devices Small 14-Lead SOIC Package 5V to 12V Gate-Drive Voltages for Optimal Efficiency ... | Original |
14 pages, |
RT9602CS phb95n03lt PHB83N03LT capacitor 2200 uF 200v 2N7000 DS9602-02 RT9602 PHB83N03 RT9237/A RT9241A/B RT9602 abstract |
|
|||
| Abstract: 400mA Output from a Single Lithium-Ion Cell Input VIN Operation Range: 0.8V to VOUT Up to 93% , Battery input voltage. Supplies the IC at start-up. Inductor connection. Ties to the drains of the , Electrical Characteristics1 VIN = 1.2V, TA = -40°C to +85°C, unless otherwise noted. Typical values are TA = , Voltage 2MHz Step-Up DC/DC Converter in SC70JW SC70JW Package Typical Characteristics 3.3V to 5V Efficiency , Voltage 2MHz Step-Up DC/DC Converter in SC70JW SC70JW Package Functional Block Diagram VCC VIN Start-Up ... | Original |
13 pages, |
AAT1265 C1608X5ROJ475K GRM188R60J475KE19D GRM21BR61A475KA73L JMK107BJ475MA SC70JW-8 Step-up 12V to 36V Step-up 12V to 36V 300mA SC70JW AAT1265 abstract |
|
|||
| Abstract: 400mA Output from a Single Lithium-Ion Cell Input VIN Operation Range: 0.8V to VOUT Up to 93% , Battery input voltage. Supplies the IC at start-up. Inductor connection. Ties to the drains of the , Electrical Characteristics1 VIN = 1.2V, TA = -40°C to +85°C, unless otherwise noted. Typical values are TA = , Voltage 2MHz Step-Up DC/DC Converter in SC70JW SC70JW Package Typical Characteristics 3.3V to 5V Efficiency , Voltage 2MHz Step-Up DC/DC Converter in SC70JW SC70JW Package Functional Block Diagram VCC VIN Start-Up ... | Original |
13 pages, |
AAT1265 C1608X5ROJ475K GRM188R60J475KE19D GRM21BR61A475KA73L JMK107BJ475MA SC70JW-8 1265 SC70JW AAT1265 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. |
|||||
| NOTE 4/9 Figure 5 : Block Diagram of High Side Switch L9801 L9801 L9801 L9801. - N-CHANNEL POWER DMOS able to withstand value (e.g. about 300m W for a 12V/50V lamp). 2) The decay time constant for the turn on extra- current for a 50W/12V rated lamp). This is a compromise between lamp turn on time (40msec) and electric and L ) vs. Time with 20A Current Limitation and 12V/50W Lamp. FAULT DETECTION When the device is driven -BCD, this technology has been used to realize a monolithic self-protected high-side switch mainly intended www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1701-v2.htm |
STMicroelectronics | 14/06/1999 | 14.4 Kb | HTM | 1701-v2.htm |
| NOTE 4/9 Figure 5 : Block Diagram of High Side Switch L9801 L9801 L9801 L9801. - N-CHANNEL POWER DMOS able to withstand value (e.g. about 300m W for a 12V/50V lamp). 2) The decay time constant for the turn on extra- current for a 50W/12V rated lamp). This is a compromise between lamp turn on time (40msec) and electric and L ) vs. Time with 20A Current Limitation and 12V/50W Lamp. FAULT DETECTION When the device is driven -BCD, this technology has been used to realize a monolithic self-protected high-side switch mainly intended www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1701-v1.htm |
STMicroelectronics | 02/04/1999 | 14.44 Kb | HTM | 1701-v1.htm |
| NOTE 4/9 Figure 5 : Block Diagram of High Side Switch L9801 L9801 L9801 L9801. - N-CHANNEL POWER DMOS able to m W for a 12V/50V lamp). 2) The decay time constant for the turn on extra- current of an -signalling devices. The design choice has been to put a 20A current limit (that is I max = 5 I nom for a 50W/12 ) vs. Time with 20A Current Limitation and 12V/50W Lamp. FAULT DETECTION When the device is driven CMOS signal struc- tures on the same chip. Called Multipower-BCD, this technology has been used to www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1701.htm |
STMicroelectronics | 20/10/2000 | 16.83 Kb | HTM | 1701.htm |
| Diagram of High Side Switch L9801 L9801 L9801 L9801. - N-CHANNEL POWER DMOS able to withstand V DS = 60V for the 300m W for a 12V/50V lamp). 2) The decay time constant for the turn on extra- current of an = 5 I nom for a 50W/12V rated lamp). This is a compromise between lamp turn on time (40msec : Lamp Current (I L ) and Voltage (V L ) vs. Time with 20A Current Limitation and 12V/50W on the same chip. Called Multipower-BCD, this technology has been used to realize a monolithic www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1701-v3.htm |
STMicroelectronics | 25/05/2000 | 16.28 Kb | HTM | 1701-v3.htm |
| Diagram. 1/14 operating supply voltage from 5V or 12V; very fast load transient 0% to 100% duty by the 12V input rail, and it is also able to operate with a 5V supply voltage; in this case 12V the power MOS gate can be used to reduce the peak current. 18 VCC Connected this pin to the 12V or connect V IN to 12V if V CC is 5V. 19 OVP Over voltage protection. If the output voltage reaches 6 R T [k W ] Connecting R T to V CC = 12V or to V CC = 5V the frequency is www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6593-v1.htm |
STMicroelectronics | 27/06/2000 | 25.96 Kb | HTM | 6593-v1.htm |
| microprocessors. The device is supplied by the 12V input rail, and it is also able to operate with a 5V supply voltage; in this case 12V input can be directly connected to the 5V power source. Also the main power VCC OCSET Vcc 12V Vin 5V Vo 1.8V to 3.5V PGOOD COMP VSEN SS OVP RT VD0 VD1 VD2 VD3 VD4 /14 operating supply voltage from 5V or 12V; very fast load transient 0% to 100% duty cycle; power good output gate can be used to reduce the peak current. 18 VCC Connected this pin to the 12V or 5V bus it www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6593.htm |
STMicroelectronics | 20/10/2000 | 27.58 Kb | HTM | 6593.htm |
| current up to 14A, as requested by new microprocessors. The L6911 L6911 L6911 L6911 is supplied by the 12V input rail. The device is also able to operate with a 5V supp ly voltage; in this case 12V input can be directly . PGND PHASE GND VFB LGATE BOOT UGATE VCC OCSET Vcc 12V Vin 5V Vo 1.8V to 3.5V PGOOD COMP VSEN SS OVP RT Block Diagram of the L6911 L6911 L6911 L6911. 1/14 operating supply voltage from 5V or 12V; very fast load transient 0 the power MOS gate can be used to reduce the peak current. 18 VCC Connected this pin to the 12V or 5V www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6593-v2.htm |
STMicroelectronics | 14/06/1999 | 24.06 Kb | HTM | 6593-v2.htm |
| threshold fixed inside the TEA7088A TEA7088A TEA7088A TEA7088A is 19V, which is equivalent to 13.4V RMS on line. As soon as the ring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 V RINGER FEATURE = V L + R11 x I L + V SWI + V BRI V L (Pin 12) DC voltage on Pin 12 (V L ) of the TEA7088A TEA7088A TEA7088A TEA7088A. V L (AC) peak max = 50 x R12 x 10 -6 -2.6 R12 V L (AC) peakmax 75k W 1.15 82k W 1.5 91k W 1.95 100k W ) ZC R8//50k W C13 10 C14 + 1 R4 SOFT C3 SOFTCLIPPING STAGE 12 V L 2 RECIN R11 ZC = Zimp//ZL I L TEA www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4792-v1.htm |
STMicroelectronics | 14/06/1999 | 48.33 Kb | HTM | 4792-v1.htm |
| threshold fixed inside the TEA7088A TEA7088A TEA7088A TEA7088A is 19V, which is equivalent to 13.4V RMS on line. As soon as the ring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 V RINGER FEATURE = V L + R11 x I L + V SWI + V BRI V L (Pin 12) DC voltage on Pin 12 (V L ) of the TEA7088A TEA7088A TEA7088A TEA7088A. V L (AC) peak max = 50 x R12 x 10 -6 -2.6 R12 V L (AC) peakmax 75k W 1.15 82k W 1.5 91k W 1.95 100k W ) ZC R8//50k W C13 10 C14 + 1 R4 SOFT C3 SOFTCLIPPING STAGE 12 V L 2 RECIN R11 ZC = Zimp//ZL I L TEA www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4792.htm |
STMicroelectronics | 02/04/1999 | 48.37 Kb | HTM | 4792.htm |
| SNS This pin connects to the (-) input of the +3.3V internal current sense comparator 21 V13IN V13IN V13IN V13IN 12V 130 ns 12V LINEAR REGULATOR SECTION V 21 Input Voltage Range 13 20 V V 22 Output Voltage I 22 = 0 to SYNCH RECTIFIERS DRIVERS 96% EFFICIENCY ACHIEVABLE 50 m A (@ 12V) STAND BY CONSUMPTION 5.5V TO 25V 12V supplies for use in portable and PCMCIA applications. The internal architecture allows to operate & SYSTEM SUPERVISOR 5.5V to 25V 3.3V 5.1V POWER SECTION L4992 L4992 L4992 L4992 m P MEMORY PERIPHERALS 12V LDO 5.1V LDO www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4540-v2.htm |
STMicroelectronics | 14/06/1999 | 55.86 Kb | HTM | 4540-v2.htm |