
Design of JK Flip-Flop using MODFET Technology
... Although JK flip-flop is an improvement on the clocked SR flip-flop it still suffers from timing problems called "race" if the output Q changes state before the timing pulse of the clock input has time to go "OFF", so the timing pulse period (T) must be kept as short as possible (high frequency). Th ...
... Although JK flip-flop is an improvement on the clocked SR flip-flop it still suffers from timing problems called "race" if the output Q changes state before the timing pulse of the clock input has time to go "OFF", so the timing pulse period (T) must be kept as short as possible (high frequency). Th ...
OPA691 Wideband, Current Feedback OPERATIONAL AMPLIFIER With Disable FEATURES
... +5V to +12V Single-Supply ±2.5V to ±6V Dual-Supply ● UNITY-GAIN STABLE: 280MHz (G = 1) ● HIGH OUTPUT CURRENT: 190mA ● OUTPUT VOLTAGE SWING: ±4.0V ● HIGH SLEW RATE: 2100V/µs ● LOW dG/dφ: 0.07% /0.02° ● LOW SUPPLY CURRENT: 5.1mA ● LOW DISABLED CURRENT: 150µA ● WIDEBAND +5V OPERATION: 190MHz (G = +2) ...
... +5V to +12V Single-Supply ±2.5V to ±6V Dual-Supply ● UNITY-GAIN STABLE: 280MHz (G = 1) ● HIGH OUTPUT CURRENT: 190mA ● OUTPUT VOLTAGE SWING: ±4.0V ● HIGH SLEW RATE: 2100V/µs ● LOW dG/dφ: 0.07% /0.02° ● LOW SUPPLY CURRENT: 5.1mA ● LOW DISABLED CURRENT: 150µA ● WIDEBAND +5V OPERATION: 190MHz (G = +2) ...
74LCX07 Low Voltage Hex Buffer with Open Drain Outputs 74LCX07 — Lo
... ■ 2.9ns tPD max. (VCC = 3.3V), 10µA ICC max. ■ Power down high impedance inputs and outputs ■ +24mA output drive (VCC = 3.0V) ■ Implements proprietary noise/EMI reduction circuitry ■ Latch-up performance exceeds JEDEC 78 conditions ■ ESD performance: ...
... ■ 2.9ns tPD max. (VCC = 3.3V), 10µA ICC max. ■ Power down high impedance inputs and outputs ■ +24mA output drive (VCC = 3.0V) ■ Implements proprietary noise/EMI reduction circuitry ■ Latch-up performance exceeds JEDEC 78 conditions ■ ESD performance: ...
FMMT549 / FMMT549A Features and Benefits Mechanical Data
... IC = -50mA, VCE = -2V IC = -1A, VCE = -2V IC = -2A, VCE = -2V IC = -500mA, VCE = -2V IC = -500mA, VCE = -2V IC = - 1A, IB = -100mA IC = - 2A, IB = -200mA IC = -100mA, IB = -1mA IC = -1A, IB = -100mA IC = -1A, VCE = -2V VCB = -10V, f = 1MHz VCE = -5V, IC = -100mA, f = 100MHz IC = -500mA, VCC = -10V I ...
... IC = -50mA, VCE = -2V IC = -1A, VCE = -2V IC = -2A, VCE = -2V IC = -500mA, VCE = -2V IC = -500mA, VCE = -2V IC = - 1A, IB = -100mA IC = - 2A, IB = -200mA IC = -100mA, IB = -1mA IC = -1A, IB = -100mA IC = -1A, VCE = -2V VCB = -10V, f = 1MHz VCE = -5V, IC = -100mA, f = 100MHz IC = -500mA, VCC = -10V I ...
VSWR, or Voltage Standing Wave Ratio.
... VSWR, or Voltage Standing Wave Ratio. When a transmission line (cable) is terminated by an impedance that does not match the characteristic impedance of the transmission line, not all of the power is absorbed by the termination. Part of the power is reflected back down the transmission line. The for ...
... VSWR, or Voltage Standing Wave Ratio. When a transmission line (cable) is terminated by an impedance that does not match the characteristic impedance of the transmission line, not all of the power is absorbed by the termination. Part of the power is reflected back down the transmission line. The for ...
Charging magnet for the floating coil of LDX
... automatically. The vacuum can surrounds the thermal shield. The bottom position of all electric, instrumentation, and cryogenic feedthroughs is dictated by the restricted space at the C-cryostat top. The cryostat has two liquid helium supplies: one to the helium vessel bottom for the initial cooling ...
... automatically. The vacuum can surrounds the thermal shield. The bottom position of all electric, instrumentation, and cryogenic feedthroughs is dictated by the restricted space at the C-cryostat top. The cryostat has two liquid helium supplies: one to the helium vessel bottom for the initial cooling ...
current transformer phase shift digital compensation
... directly affects the power value whereby, unless it is compensated for, it could cause a significant or even unacceptable error. This effect is considerably expressed in circuits with a large reactive component. A solution of this problem, in analogue realizations, assumes a RC filter application. O ...
... directly affects the power value whereby, unless it is compensated for, it could cause a significant or even unacceptable error. This effect is considerably expressed in circuits with a large reactive component. A solution of this problem, in analogue realizations, assumes a RC filter application. O ...
PDF: 1.21MB
... 1200V Large DIPIPM Ver.6 is a compact intelligent power module with transfer molding package favorable for larger mass production. And it includes power chips, drive and protection circuits. This series apply same package, which has high thermal radiation performance by the insulated sheet structure ...
... 1200V Large DIPIPM Ver.6 is a compact intelligent power module with transfer molding package favorable for larger mass production. And it includes power chips, drive and protection circuits. This series apply same package, which has high thermal radiation performance by the insulated sheet structure ...
MAX1823/MAX1823A/MAX1823B/MAX1823H Dual USB Switch with Fault Blanking and Autoreset General Description
... Power Input. Connect all IN_ pins together, and bypass with a 0.1µF capacitor to ground. Load conditions may require additional bulk capacitance to prevent the input from being pulled down. ...
... Power Input. Connect all IN_ pins together, and bypass with a 0.1µF capacitor to ground. Load conditions may require additional bulk capacitance to prevent the input from being pulled down. ...
NTC thermistors for inrush current limiting, leaded and
... Use NTC inrush current limiters only within the specified operating temperature range. Use NTC inrush current limiters only within the specified voltage and current ranges. Environmental conditions must not harm the NTC inrush current limiters. Use NTC inrush current limiters only in normal atmosphe ...
... Use NTC inrush current limiters only within the specified operating temperature range. Use NTC inrush current limiters only within the specified voltage and current ranges. Environmental conditions must not harm the NTC inrush current limiters. Use NTC inrush current limiters only in normal atmosphe ...
bq76200EVM-606 - Texas Instruments
... signals for the bq76200, a concept is shown in Figure 3. The J7 header or J8 terminal block may be useful to connect signals to the bq76200 EVM, refer to the documentation for the BMS board to determine where to connect and how to interface the signals. Ensure that the BMS settings are correctly cha ...
... signals for the bq76200, a concept is shown in Figure 3. The J7 header or J8 terminal block may be useful to connect signals to the bq76200 EVM, refer to the documentation for the BMS board to determine where to connect and how to interface the signals. Ensure that the BMS settings are correctly cha ...
Power MOSFET
A power MOSFET is a specific type of metal oxide semiconductor field-effect transistor (MOSFET) designed to handle significant power levels.Compared to the other power semiconductor devices, for example an insulated-gate bipolar transistor (IGBT) or a thyristor, its main advantages are high commutation speed and good efficiency at low voltages. It shares with the IGBT an isolated gate that makes it easy to drive. They can be subject to low gain, sometimes to degree that the gate voltage needs to be higher than the voltage under control.The design of power MOSFETs was made possible by the evolution of CMOS technology, developed for manufacturing integrated circuits in the late 1970s. The power MOSFET shares its operating principle with its low-power counterpart, the lateral MOSFET.The power MOSFET is the most widely used low-voltage (that is, less than 200 V) switch. It can be found in most power supplies, DC to DC converters, and low voltage motor controllers.