AD8319 数据手册DataSheet 下载
... Device Common. Connect this pin to a low impedance ground plane. Loop Filter Capacitor. In measurement mode, this capacitor sets the pulse response time and video bandwidth. In controller mode, the capacitance on this node sets the response time of the error amplifier/integrator. Setpoint Control In ...
... Device Common. Connect this pin to a low impedance ground plane. Loop Filter Capacitor. In measurement mode, this capacitor sets the pulse response time and video bandwidth. In controller mode, the capacitance on this node sets the response time of the error amplifier/integrator. Setpoint Control In ...
VCA820 数据资料 dataSheet 下载
... At TA = +25°C, RL = 100Ω, RF = 1.33kΩ, RG = 1.33kΩ, VG = +2V, VIN = single-ended input on +VIN with –VIN at ground, and ...
... At TA = +25°C, RL = 100Ω, RF = 1.33kΩ, RG = 1.33kΩ, VG = +2V, VIN = single-ended input on +VIN with –VIN at ground, and ...
MAX5100 +2.7V to +5.5V, Low-Power, Quad, Parallel General Description
... impedance to the reference and guarantees a monotonic output. The device can be used in multiplying applications. The voltages are buffered by rail-to-rail op amps connected in a follower configuration to provide a rail-to-rail output. The functional block diagram for the MAX5100 is shown in Figure ...
... impedance to the reference and guarantees a monotonic output. The device can be used in multiplying applications. The voltages are buffered by rail-to-rail op amps connected in a follower configuration to provide a rail-to-rail output. The functional block diagram for the MAX5100 is shown in Figure ...
LM26001/LM26001Q 1.5A Switching Regulator with High Efficiency
... Bootstrap capacitor pin. Connect a 0.1-µF minimum ceramic capacitor from this pin to SW to generate the gate drive bootstrap voltage. ...
... Bootstrap capacitor pin. Connect a 0.1-µF minimum ceramic capacitor from this pin to SW to generate the gate drive bootstrap voltage. ...
UNIT I
... • Majority carriers (+) will diffuse across the forward-biased p-n junction into the n-type material. • A very small number of carriers (+) will through n-type material to the base terminal. Resulting IB is typically in order of microamperes. • The large number of majority carriers will diffuse acro ...
... • Majority carriers (+) will diffuse across the forward-biased p-n junction into the n-type material. • A very small number of carriers (+) will through n-type material to the base terminal. Resulting IB is typically in order of microamperes. • The large number of majority carriers will diffuse acro ...
Current-shunt feedback
... The two very common networks used for the summing of the input and feedback signals are displayed in Fig.-3. The circuit shown in Fig.-3(a) is a series connection and it is used to compare the signal voltage Vs and feedback signal Vf . The amplifier input signal Vi is proportional to the volta ...
... The two very common networks used for the summing of the input and feedback signals are displayed in Fig.-3. The circuit shown in Fig.-3(a) is a series connection and it is used to compare the signal voltage Vs and feedback signal Vf . The amplifier input signal Vi is proportional to the volta ...
ADS5281 数据资料 dataSheet 下载
... • Analog Input Full-Scale Range: 2VPP • Low-Frequency Noise Suppression Mode • 6dB Overload Recovery In One Clock • External and Internal (Trimmed) Reference • 3.3V Analog Supply, 1.8V Digital Supply • Single-Ended or Differential Clock: – Clock Duty Cycle Correction Circuit (DCC) • Programmable Dig ...
... • Analog Input Full-Scale Range: 2VPP • Low-Frequency Noise Suppression Mode • 6dB Overload Recovery In One Clock • External and Internal (Trimmed) Reference • 3.3V Analog Supply, 1.8V Digital Supply • Single-Ended or Differential Clock: – Clock Duty Cycle Correction Circuit (DCC) • Programmable Dig ...
2007
... low-level image processing in a variety of computationally intensive vision applications. These applications include optical-flow computation, autonomous navigation, object avoidance or intercept, real-time target tracking, and recognition. To reach this goal, a single chip was developed, which func ...
... low-level image processing in a variety of computationally intensive vision applications. These applications include optical-flow computation, autonomous navigation, object avoidance or intercept, real-time target tracking, and recognition. To reach this goal, a single chip was developed, which func ...
Analog to Digital Converters (ADC)
... A Gain Error occurs when the ADC produces an output at a different quantization level than desired. The output is linear but the steps are either larger or smaller than they should be. The resolution is poor and there is the possibility of clipping (the binary number stops changing with a change in ...
... A Gain Error occurs when the ADC produces an output at a different quantization level than desired. The output is linear but the steps are either larger or smaller than they should be. The resolution is poor and there is the possibility of clipping (the binary number stops changing with a change in ...
E. Receiver Gain and AGC
... receiver compression point. 4. IF Filter - Required to suppress all mixer IF output signals, with the exception of the one desired signal that we wish to demodulate. Also determines the noise bandwidth B of the receiver. 5. IF Amp - Q: Why is this device required? What ...
... receiver compression point. 4. IF Filter - Required to suppress all mixer IF output signals, with the exception of the one desired signal that we wish to demodulate. Also determines the noise bandwidth B of the receiver. 5. IF Amp - Q: Why is this device required? What ...
ADA4853-1AKSZ-R7中文资料
... Devicehttp://www.wendangwang.com/doc/89eddaed80358fd0fe9cbc7as is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to c ...
... Devicehttp://www.wendangwang.com/doc/89eddaed80358fd0fe9cbc7as is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to c ...