NOT GATE IN LOGIC CONVERTER Search Results

UART 6402

Abstract: EP320I epf81188arc240-4 EPF8282ALC84-4 6402 uart EPF8820ARI208-4 EPF81188AGC232-4 EPF81500ARI240-3 EPM9560GC280 EPM7160
Contextual Info: Newsletter for Altera Customers ◆ Second Quarter ◆ May 1996 Altera Ships 100,000-Gate PLD Altera is now shipping the EPF10K100 device, which is not only the largest member of the FLEX 10K family, but also the largest device in the programmable logic industry. FLEX 10K devices contain both a logic array

Si4435DY

Abstract: Si4710CY
Contextual Info: Si4710CY New Product Vishay Siliconix Battery Disconnect Switch FEATURES D Level-Shifted Gate Drive with Internal MOSFET D Ultra Low Power Consumption in Off State Leakage Current Only D Logic Supply Voltage is Not Required D Solution for Bi-Directional Blocking

Si4435DY

Abstract: Si4710CY
Contextual Info: Si4710CY New Product Vishay Siliconix Battery Disconnect Switch FEATURES D Level-Shifted Gate Drive with Internal MOSFET D Ultra Low Power Consumption in Off State Leakage Current Only D Logic Supply Voltage is Not Required D Solution for Bi-Directional Blocking

Contextual Info: Si4710CY New Product Vishay Siliconix Battery Disconnect Switch FEATURES D Level-Shifted Gate Drive with Internal MOSFET D Ultra Low Power Consumption in Off State Leakage Current Only D Logic Supply Voltage is Not Required D Solution for Bi-Directional Blocking

Contextual Info: Si4710CY New Product Vishay Siliconix Battery Disconnect Switch FEATURES D Level-Shifted Gate Drive with Internal MOSFET D Ultra Low Power Consumption in Off State Leakage Current Only D Logic Supply Voltage is Not Required D Solution for Bi-Directional Blocking

Contextual Info: A3935 3-Phase Power MOSFET Controller for Automotive Applications Features and Benefits Description Drives wide range of N-channel MOSFETs in 3-phase bridges PFM boost converter for use with low-voltage battery supplies Internal LDO regulator for gate-driver supply

Contextual Info: NOTE. The EPC9006 development board does not have any current or thermal protection on board. Figure 4: Typical Waveforms for VIN = 48 V to 5 V/5 A 1000kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage

EPC2001

Abstract: EPC9002 rmcf0603ft10k0 EPC-200 HMK325B7225K j6 con4 03U40 stackpole potentiometer LM5113
Contextual Info: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 500kHz Buck converter CH1: VPWM Input voltage – CH3: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9002 development board does not have any current or thermal protection on board.

Contextual Info: Figure 4: Typical Waveforms for VIN = 28 V to 3.3 V/4 A 5 MHz Buck converter CH2: (VOUT) Switch node voltage –– CH4: VPWM Input voltage NOTE. The EPC9027 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – OUT

Contextual Info: Figure 4: Typical Waveforms for VIN = 24 V to 1.2 V/25 A 1000kHz Buck converter CH2: Switch node voltage (VSW) – CH4: PWM input voltage (VPWM) NOTE. The EPC9016 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW

SLUA287

Abstract: Silicon Controlled Rectifier Manual SLUS157 SLUS492 Current-doubler literature review voltage doubler SLUA121 ZVS phase-shift converters zero voltage switching pwm full bridge converter UCC3895-EVM
Contextual Info: Application Note Control Driven Synchronous Rectifiers In Phase Shifted Full Bridge Converters Application Note SLUA287 – March 2003 Control Driven Synchronous Rectifiers In Phase Shifted Full Bridge Converters Steve Mappus Power Supply Control Products

stackpole potentiometer

Contextual Info: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/14 A 500 kHz Buck converter CH1: Switch node voltage (VSW) - CH2: PWM input voltage (VPWM) NOTE. The EPC9017 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW

Contextual Info: Figure 4: Typical Waveforms for VIN = 24 V to 1.2 V/15 A 500kHz Buck converter CH1: VPWM Input voltage – CH3: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9001 development board does not have any current or thermal protection on board.

fdb5800

Contextual Info: FDB5800 N-Channel Logic Level PowerTrench MOSFET 60V, 80A, 7mΩ Features Applications „ rDS ON = 5.5mΩ (Typ.), VGS = 5V, ID = 80A „ Motor Load Control „ High performance trench technology for extermely low Rdson „ DC-DC Converters and Off-Line UPS

Contextual Info: Figure 3: Proper Measurement of Switch Node – OUT Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 500kHz Buck converter CH1: Switch node voltage (VSW) - CH2: PWM input voltage (VPWM) NOTE. The EPC9002 development board does not have any current or thermal protection on board.

Contextual Info: FDN5632N_F085 tm N-Channel Logic Level PowerTrench MOSFET 60V, 1.6A, 98mΩ Features Applications „ RDS on = 98mΩ at VGS = 4.5V, ID = 1.6A „ DC/DC converter „ RDS(on) = 82mΩ at VGS = 10V, ID = 1.7A „ Motor Drives „ Typ Qg(TOT) = 9.2nC at VGS = 10V

661n

Abstract: FDC5661N mosfet motor dc 48v ssot-6 FDC5661NF085
Contextual Info: FDC5661N_F085 N-Channel Logic Level PowerTrench MOSFET tm 60V, 4A, 60mΩ Features Applications „ RDS on = 47mΩ at VGS = 10V, ID = 4.3A „ DC/DC converter „ RDS(on) = 60mΩ at VGS = 4.5V, ID = 4A „ Motor Drives „ Typ Qg(TOT) = 14.5nC at VGS = 10V „ Low Miller Charge

Contextual Info: FDC5661N_F085 tm N-Channel Logic Level PowerTrench MOSFET 60V, 4A, 60mΩ Features Applications ̈ RDS on = 47mΩ at VGS = 10V, ID = 4.3A ̈ DC/DC converter ̈ RDS(on) = 60mΩ at VGS = 4.5V, ID = 4A ̈ Motor Drives ̈ Typ Qg(TOT) = 14.5nC at VGS = 10V ̈ Low Miller Charge

J5 controller board circuit diagram

Contextual Info: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/35 A 300 kHz Buck converter CH1: PWM input voltage (VPWM) – CH4: Switch node voltage (VSW) NOTE. The EPC9013 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW

Contextual Info: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 1000kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9010 development board does not have any current or thermal protection on board.

Contextual Info: FDN5632N_F085 tm N-Channel Logic Level PowerTrench MOSFET 60V, 1.6A, 98mΩ Features Applications „ RDS on = 98mΩ at VGS = 4.5V, ID = 1.6A „ DC/DC converter „ RDS(on) = 82mΩ at VGS = 10V, ID = 1.7A „ Motor Drives „ Typ Qg(TOT) = 9.2nC at VGS = 10V

Contextual Info: FDB8860 N-Channel Logic Level PowerTrench MOSFET 30V, 80A, 2.6mΩ Features Applications ̈ RDS ON = 1.9mΩ (Typ), VGS = 5V, ID = 80A ̈ DC-DC Converters ̈ Qg(5) = 89nC (Typ), VGS = 5V ̈ Low Miller Charge ̈ Low QRR Body Diode ̈ UIS Capability (Single Pulse and Repetitive Pulse)

FDB8860

Contextual Info: FDB8860 N-Channel Logic Level PowerTrench MOSFET 30V, 80A, 2.6mΩ Features Applications „ RDS ON = 1.9mΩ (Typ), VGS = 5V, ID = 80A „ DC-DC Converters „ Qg(5) = 89nC (Typ), VGS = 5V „ Low Miller Charge „ Low QRR Body Diode „ UIS Capability (Single Pulse and Repetitive Pulse)

Si8410BB

Contextual Info: Figure 4: Waveforms for VIN = 150 V to 5 V/2 A 100kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9004 development board does not have any current or thermal protection on board.