4-Channel, Low Noise, Low Power, 24-Bit, Sigma
... • UG-855: Evaluation Board for the AD7124-4 4-Channel, Low Noise, Low Power, 24-Bit, Sigma-Delta ADC with InAmp and Reference ...
... • UG-855: Evaluation Board for the AD7124-4 4-Channel, Low Noise, Low Power, 24-Bit, Sigma-Delta ADC with InAmp and Reference ...
AD5170 数据手册DataSheet下载
... 256-Position, Two-Time Programmable, I2C Digital Potentiometer AD5170 256-position digital potentiometer Two-time programmable (TTP) set-and-forget resistance setting allows second-chance permanent programming Unlimited adjustments prior to one-time programming (OTP) activation OTP overwrite allows ...
... 256-Position, Two-Time Programmable, I2C Digital Potentiometer AD5170 256-position digital potentiometer Two-time programmable (TTP) set-and-forget resistance setting allows second-chance permanent programming Unlimited adjustments prior to one-time programming (OTP) activation OTP overwrite allows ...
Atmel MSL3080 8 String 60mA LED Drivers with Integrated Boost Controller FULL DATASHEET
... ±3% current accuracy and current balance Single resistor sets current for all LED strings External PWM dimming Internal PWM dimming control engine Single PWM input sets dimming duty cycle and frequency Internal PWM dimming (use optional) Synchronizes PWM dimming to LCD panel refresh rate Frequency m ...
... ±3% current accuracy and current balance Single resistor sets current for all LED strings External PWM dimming Internal PWM dimming control engine Single PWM input sets dimming duty cycle and frequency Internal PWM dimming (use optional) Synchronizes PWM dimming to LCD panel refresh rate Frequency m ...
Robust FinFET Memory Circuits with P
... access transistors P3 and P4 are turned on. Provided that Node1 stores “0”, BL is discharged through P3 and N1. Alternatively, provided that Node2 stores “0”, BLB is discharged through P4 and N2. The P-type FinFETs P3 and P4 are weaker with significantly higher resistance as compared to the N-type Fi ...
... access transistors P3 and P4 are turned on. Provided that Node1 stores “0”, BL is discharged through P3 and N1. Alternatively, provided that Node2 stores “0”, BLB is discharged through P4 and N2. The P-type FinFETs P3 and P4 are weaker with significantly higher resistance as compared to the N-type Fi ...
Service Manual
... The CPU, FPGA and Super I/O are the major components on the board. The CPU carries out the instructions and functions as the core of the board. The FPGA functions as the relay between the CPU and the Super IO. The Super I/O includes various interfaces that can be accessed by the CPU through the FPGA ...
... The CPU, FPGA and Super I/O are the major components on the board. The CPU carries out the instructions and functions as the core of the board. The FPGA functions as the relay between the CPU and the Super IO. The Super I/O includes various interfaces that can be accessed by the CPU through the FPGA ...
Mono 2.9 W Class-D Audio Amplifier SSM4321 Data Sheet
... 89% efficiency at 5.0 V, 1.4 W into 8 Ω + 0.2 Ω RSENSE speaker >100 dB signal-to-noise ratio (SNR) High PSRR at 217 Hz: 86 dB Amplifier supply operation from 2.5 V to 5.5 V Input/output supply operation from 1.42 V to 3.6 V Flexible gain adjustment pin: 0 dB to 12 dB in 3 dB steps with fixed input i ...
... 89% efficiency at 5.0 V, 1.4 W into 8 Ω + 0.2 Ω RSENSE speaker >100 dB signal-to-noise ratio (SNR) High PSRR at 217 Hz: 86 dB Amplifier supply operation from 2.5 V to 5.5 V Input/output supply operation from 1.42 V to 3.6 V Flexible gain adjustment pin: 0 dB to 12 dB in 3 dB steps with fixed input i ...
Pulsing
... A2 also loops the junction with the 400 ohm high impedance I relay. This "initial pickup" is the condition that usually limits the resistance permitted in the junction pair. This limit can go up to 2000 ohms with the total loop resistance being presented to the distant A relay being 2400 ohms. Above ...
... A2 also loops the junction with the 400 ohm high impedance I relay. This "initial pickup" is the condition that usually limits the resistance permitted in the junction pair. This limit can go up to 2000 ohms with the total loop resistance being presented to the distant A relay being 2400 ohms. Above ...
Basic BJT Amplifiers
... is a dc voltage to bias the transistor at a particular Q-point and vs is the ac signal that is to be amplified. Figure 6.2(c) shows the voltage transfer characteristics that were developed in Chapter 5. To use the circuit as an amplifier, the transistor needs to be biased with a dc voltage at a quie ...
... is a dc voltage to bias the transistor at a particular Q-point and vs is the ac signal that is to be amplified. Figure 6.2(c) shows the voltage transfer characteristics that were developed in Chapter 5. To use the circuit as an amplifier, the transistor needs to be biased with a dc voltage at a quie ...
Chapter 2 - Part 1 - PPT - Mano & Kime
... outputs, overcoming the problem of the limited inputs to the PAL Ors • Some PLAs have outputs that can be complemented, adding POS functions Chapter 6 - Part 4 ...
... outputs, overcoming the problem of the limited inputs to the PAL Ors • Some PLAs have outputs that can be complemented, adding POS functions Chapter 6 - Part 4 ...
Navy Electricity and Electronics Training Series
... equipments and their applications. Module 17, Radio-Frequency Communications Principles, presents the fundamentals of a radiofrequency communications system. Module 18, Radar Principles, covers the fundamentals of a radar system. Module 19, The Technician's Handbook, is a handy reference of commonly ...
... equipments and their applications. Module 17, Radio-Frequency Communications Principles, presents the fundamentals of a radiofrequency communications system. Module 18, Radar Principles, covers the fundamentals of a radar system. Module 19, The Technician's Handbook, is a handy reference of commonly ...
Chapter Images - James Halderman
... • Frequency (hertz, abbreviated Hz) • Temperature probe (°F and/or °C) • Pulse width (millisecond, abbreviated ms) • Duty cycle (%) ...
... • Frequency (hertz, abbreviated Hz) • Temperature probe (°F and/or °C) • Pulse width (millisecond, abbreviated ms) • Duty cycle (%) ...
