OPA656 Wideband, Unity-Gain Stable, FET-Input OPERATIONAL AMPLIFIER FEATURES
... Voltage-feedback op amps, unlike current feedback products, can use a wide range of resistor values to set their gain. To retain a controlled frequency response for the noninverting voltage amplifier of Figure 1, the parallel combination of RF || RG should always < 200Ω. In the noninverting configur ...
... Voltage-feedback op amps, unlike current feedback products, can use a wide range of resistor values to set their gain. To retain a controlled frequency response for the noninverting voltage amplifier of Figure 1, the parallel combination of RF || RG should always < 200Ω. In the noninverting configur ...
sMHF single and dual dc-dc converters
... or R - 100 krad(Si). Single event effects (SEE) LET performance to 86 MeV cm2/mg. See Table 10 on page 15 for more information. ...
... or R - 100 krad(Si). Single event effects (SEE) LET performance to 86 MeV cm2/mg. See Table 10 on page 15 for more information. ...
AD538 - Analog Devices
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
Chapter 21
... In a capacitor, during one-half of a cycle, energy is stored and during the other half the energy is returned to the circuit and no power losses occur in the capacitor. In an inductor, the source does work against the back emf of the inductor and energy is stored in the inductor, but when the cu ...
... In a capacitor, during one-half of a cycle, energy is stored and during the other half the energy is returned to the circuit and no power losses occur in the capacitor. In an inductor, the source does work against the back emf of the inductor and energy is stored in the inductor, but when the cu ...
TAT7457 数据资料DataSheet下载
... 1. At -17 dBm/tone at input. 2. 10 dBmV/ch at input, 80 ch flat NTSC 3. Electrical specifications are measured at specified test conditions. 4. Specifications are not guaranteed over all recommended operating conditions. ...
... 1. At -17 dBm/tone at input. 2. 10 dBmV/ch at input, 80 ch flat NTSC 3. Electrical specifications are measured at specified test conditions. 4. Specifications are not guaranteed over all recommended operating conditions. ...
MAX3645 +2.97V to +5.5V, 125Mbps to 200Mbps Limiting Amplifier with Loss-of-Signal Detector
... quantizer and is pin compatible with the Mindspeed MC2045-2 and MC2045-2Y postamplifiers. The amplifier accepts a wide range of input voltages and provides constant-level positive emitter-coupled logic (PECL) output voltages with controlled edge speeds. The MAX3645 features an integrated power detec ...
... quantizer and is pin compatible with the Mindspeed MC2045-2 and MC2045-2Y postamplifiers. The amplifier accepts a wide range of input voltages and provides constant-level positive emitter-coupled logic (PECL) output voltages with controlled edge speeds. The MAX3645 features an integrated power detec ...
3-Channel, Very Low Power Video Amplifiers
... • Low Differential Gain/Phase of 0.05%/0.03° • Ultra-Small, MicrostarCSP™ 9-Ball Package – Tiny PCB Area: 1,5 mm × 1,5 mm – Very Low Profile Height: 0,45 mm (max) ...
... • Low Differential Gain/Phase of 0.05%/0.03° • Ultra-Small, MicrostarCSP™ 9-Ball Package – Tiny PCB Area: 1,5 mm × 1,5 mm – Very Low Profile Height: 0,45 mm (max) ...
Lect19
... • RLC circuits with a sinusoidal drive • Phase difference between current & voltage for Resistors, Capacitors, and Inductors. • Reactance • Phasors • Application to frequency filters (high-, low-pass) ...
... • RLC circuits with a sinusoidal drive • Phase difference between current & voltage for Resistors, Capacitors, and Inductors. • Reactance • Phasors • Application to frequency filters (high-, low-pass) ...
Chapter 1: The Basics
... (6) Turn on the power switch and wait a few minutes for the tubes to warm up. (7) Bias the amplifier as indicated in the next section on biasing, but instead of setting the bias adjustment to a max range of 60mV on the test jacks, set it no higher than 30mV, typically around 25mV to 28mV for best to ...
... (6) Turn on the power switch and wait a few minutes for the tubes to warm up. (7) Bias the amplifier as indicated in the next section on biasing, but instead of setting the bias adjustment to a max range of 60mV on the test jacks, set it no higher than 30mV, typically around 25mV to 28mV for best to ...
Data Encoding Techniques
... Bi –Phase Codes Bi- phase codes – require at least one transition per bit time and may have as many as two transitions. the maximum modulation rate is twice that of NRZ greater transmission bandwidth is required. Advantages: Synchronization – with a predictable transition per bit time the recei ...
... Bi –Phase Codes Bi- phase codes – require at least one transition per bit time and may have as many as two transitions. the maximum modulation rate is twice that of NRZ greater transmission bandwidth is required. Advantages: Synchronization – with a predictable transition per bit time the recei ...
Data Encoding Techniques
... signals to encode analog data is PCM. Example: To transfer analog voice signals off a local loop to digital end office within the phone system, one uses a codec. Because voice data limited to frequencies below 4000 HZ, a codec makes 8000 samples/sec. ...
... signals to encode analog data is PCM. Example: To transfer analog voice signals off a local loop to digital end office within the phone system, one uses a codec. Because voice data limited to frequencies below 4000 HZ, a codec makes 8000 samples/sec. ...
Power and RMS Values of Fourier Series
... Power phasors in sinusoidal systems The apparent power is defined as the product of the rms voltage and rms current. Apparent power is easily measured —it is simply the product of the readings of a voltmeter and ammeter placed in the circuit at the given surface. Many power system elements, such as ...
... Power phasors in sinusoidal systems The apparent power is defined as the product of the rms voltage and rms current. Apparent power is easily measured —it is simply the product of the readings of a voltmeter and ammeter placed in the circuit at the given surface. Many power system elements, such as ...
UCC2818A-Q1 数据资料 dataSheet 下载
... Designed in Texas Instrument’s BiCMOS process, the UCC2818A offers new features such as lower start-up current, lower power dissipation, overvoltage protection, a shunt UVLO detect circuitry, a leading-edge modulation technique to reduce ripple current in the bulk capacitor and an improved, low-offs ...
... Designed in Texas Instrument’s BiCMOS process, the UCC2818A offers new features such as lower start-up current, lower power dissipation, overvoltage protection, a shunt UVLO detect circuitry, a leading-edge modulation technique to reduce ripple current in the bulk capacitor and an improved, low-offs ...
Analog Devices : Multiplier Application Guide
... errors nulled, i.e ., the irreducible minimum error. It is usually expressed in terms of X and Y nonlinearity , with the named input sw inging over its full-scale range , and th e oth er input at lOY. If the user recognizes that linearity errors are usually largest at large input values, improvement ...
... errors nulled, i.e ., the irreducible minimum error. It is usually expressed in terms of X and Y nonlinearity , with the named input sw inging over its full-scale range , and th e oth er input at lOY. If the user recognizes that linearity errors are usually largest at large input values, improvement ...
Design of a 5.8 GHz Multi-Modulus Prescaler - Til Daim
... MOS) uses both PMOS and NMOS transistors to realize a logic function, pseudo-NMOS uses only NMOS transistors to realize the function and pull the output low when that is required, and one single PMOS transistor with the gate grounded to pull the output high when there is no short circuit from the ou ...
... MOS) uses both PMOS and NMOS transistors to realize a logic function, pseudo-NMOS uses only NMOS transistors to realize the function and pull the output low when that is required, and one single PMOS transistor with the gate grounded to pull the output high when there is no short circuit from the ou ...
MAX3766 622Mbps LAN/WAN Laser Driver with Automatic Power Control and Safety Shutdown
... REF2. The temperature coefficient (tempco) of REF1 compensates for the tempco of the bias, modulation, and APC current mirrors. Therefore, a programming current derived from REF1 is constant with temperature. REF2 provides a positive tempco, which can be applied to the modulation current. A positive ...
... REF2. The temperature coefficient (tempco) of REF1 compensates for the tempco of the bias, modulation, and APC current mirrors. Therefore, a programming current derived from REF1 is constant with temperature. REF2 provides a positive tempco, which can be applied to the modulation current. A positive ...
L6370
... The input section is an high impedance differential stage with high common and differential mode range. There’s built-in offset of +1.4 V (typical value) and an hysteresis of 400 mV (maximum value), to ensure high noise immunity. ...
... The input section is an high impedance differential stage with high common and differential mode range. There’s built-in offset of +1.4 V (typical value) and an hysteresis of 400 mV (maximum value), to ensure high noise immunity. ...