NB6L11M - 2.5V / 3.3V 1:2 Differential CML Fanout Buffer
... The VREFAC pin is an internally generated voltage supply available to this device only. VREFAC is used as a reference voltage for single−ended PECL or NECL inputs. For all single−ended input conditions, the unused complementary differential input is connected to VREFAC as a switching reference volta ...
... The VREFAC pin is an internally generated voltage supply available to this device only. VREFAC is used as a reference voltage for single−ended PECL or NECL inputs. For all single−ended input conditions, the unused complementary differential input is connected to VREFAC as a switching reference volta ...
rg500 series - Minarik Drives
... subject to change without notice. American Control Electronics® makes no warranty of any kind with respect to this material, including, but not limited to, the implied warranties of its merchantability and fitness for a given purpose. American Control Electronics® assumes no responsibility for any e ...
... subject to change without notice. American Control Electronics® makes no warranty of any kind with respect to this material, including, but not limited to, the implied warranties of its merchantability and fitness for a given purpose. American Control Electronics® assumes no responsibility for any e ...
MAX19791 50MHz to 4000MHz Dual Analog Voltage Variable
... DAC can be used to control both attenuators. In addition, a step-up/down feature allows user-programmable attenuator stepping through command pulses without reprogramming the SPI interface. The MAX19791 is a monolithic device designed using one of Maxim’s proprietary SiGe BiCMOS processes. The part ...
... DAC can be used to control both attenuators. In addition, a step-up/down feature allows user-programmable attenuator stepping through command pulses without reprogramming the SPI interface. The MAX19791 is a monolithic device designed using one of Maxim’s proprietary SiGe BiCMOS processes. The part ...
paper
... To avoid adding additional noise to the measurement system by communicating analog quantities off the chip, A/D conversion is performed internally. Since all the digital samples are post-processed using measured calibration curves, the linearity and offset requirements of this on-chip converter are ...
... To avoid adding additional noise to the measurement system by communicating analog quantities off the chip, A/D conversion is performed internally. Since all the digital samples are post-processed using measured calibration curves, the linearity and offset requirements of this on-chip converter are ...
C450 Technical Manual 1.0.docx
... GSM for long-range wireless communication the C450 pro integrates support for RF ISM for short range wireless communication. The on-board I/O system can be expanded almost indefinitely and completely transparent by adding external Modbus compatible I/O modules! This unique I/O expansion capability, ...
... GSM for long-range wireless communication the C450 pro integrates support for RF ISM for short range wireless communication. The on-board I/O system can be expanded almost indefinitely and completely transparent by adding external Modbus compatible I/O modules! This unique I/O expansion capability, ...
AN2349
... Discontinuous Conduction mode. This is the most simple and cost-effective solution for 220V and 120V mains and low\medium power. Figure 4. ...
... Discontinuous Conduction mode. This is the most simple and cost-effective solution for 220V and 120V mains and low\medium power. Figure 4. ...
UCC28060 数据资料 dataSheet 下载
... Optimized for high-volume consumer applications, this solution extends the advantages of transition mode—high efficiency with low-cost components—to higher power ratings than previously possible. By utilizing a Natural Interleaving technique, both channels operate as masters (that is, there is no sl ...
... Optimized for high-volume consumer applications, this solution extends the advantages of transition mode—high efficiency with low-cost components—to higher power ratings than previously possible. By utilizing a Natural Interleaving technique, both channels operate as masters (that is, there is no sl ...
MAX16823 High-Voltage, 3-Channel Linear High-Brightness LED Driver with Open LED Detection General Description
... LEDs. Three DIM inputs allow a wide range of independent pulsed dimming in addition to providing the on and off control of the outputs. Wave-shaping circuitry reduces EMI while providing fast turn-on and turn-off times. The MAX16823 is well suited for automotive applications requiring a high-voltage ...
... LEDs. Three DIM inputs allow a wide range of independent pulsed dimming in addition to providing the on and off control of the outputs. Wave-shaping circuitry reduces EMI while providing fast turn-on and turn-off times. The MAX16823 is well suited for automotive applications requiring a high-voltage ...
MAX8759 Low-Cost, SMBus, CCFL Backlight Controller General Description Features
... waveforms over the entire input range. The controller operates over a wide input-voltage range of 4.5V to 28V with high power to light efficiency. The device also includes safety features that effectively protect against single-point fault conditions such as lamp-out, secondary overvoltage, and seco ...
... waveforms over the entire input range. The controller operates over a wide input-voltage range of 4.5V to 28V with high power to light efficiency. The device also includes safety features that effectively protect against single-point fault conditions such as lamp-out, secondary overvoltage, and seco ...
Optidrive E2 Single Phase Output User Guide
... equipment complies with EN60204-1. The level of integrity offered by the Optidrive control input functions – for example stop/start, forward and maximum speed is not sufficient for use in safety-critical applications without independent channels of protection. All applications where malfunction coul ...
... equipment complies with EN60204-1. The level of integrity offered by the Optidrive control input functions – for example stop/start, forward and maximum speed is not sufficient for use in safety-critical applications without independent channels of protection. All applications where malfunction coul ...
DA4709 / DA4718
... 2. Choose the maximum set value (e.g. 10 V). Turn the potentiometer n max, until the desired maximum speed is reached with unloaded motor. 3. Adjust the current limiter to a value requested by you with the I max potentiometer. It is of major importance that this value is lower than the maximum admis ...
... 2. Choose the maximum set value (e.g. 10 V). Turn the potentiometer n max, until the desired maximum speed is reached with unloaded motor. 3. Adjust the current limiter to a value requested by you with the I max potentiometer. It is of major importance that this value is lower than the maximum admis ...
Linear Regulator (LDO) | Overview | Power ICs | TI.com
... constraints in portable equipments the DC/DC converter is internally compensated. When the converter needs to be optimized for specific application conditions the inductor, output capacitor and the feedback divider are the only components that can be changed. This paper discusses how these component ...
... constraints in portable equipments the DC/DC converter is internally compensated. When the converter needs to be optimized for specific application conditions the inductor, output capacitor and the feedback divider are the only components that can be changed. This paper discusses how these component ...
ADS1000 数据资料 dataSheet 下载
... An I2C bus consists of two lines, SDA and SCL. SDA carries data; SCL provides the clock. All data is transmitted across the I2C bus in groups of eight bits. To send a bit on the I2C bus, the SDA line is driven to the bit level while SCL is low (a Low on SDA indicates the bit is '0'; a High indicates ...
... An I2C bus consists of two lines, SDA and SCL. SDA carries data; SCL provides the clock. All data is transmitted across the I2C bus in groups of eight bits. To send a bit on the I2C bus, the SDA line is driven to the bit level while SCL is low (a Low on SDA indicates the bit is '0'; a High indicates ...
Analog-to-digital converter
An analog-to-digital converter (ADC, A/D, or A to D) is a device that converts a continuous physical quantity (usually voltage) to a digital number that represents the quantity's amplitude.The conversion involves quantization of the input, so it necessarily introduces a small amount of error. Furthermore, instead of continuously performing the conversion, an ADC does the conversion periodically, sampling the input. The result is a sequence of digital values that have been converted from a continuous-time and continuous-amplitude analog signal to a discrete-time and discrete-amplitude digital signal.An ADC is defined by its bandwidth (the range of frequencies it can measure) and its signal to noise ratio (how accurately it can measure a signal relative to the noise it introduces). The actual bandwidth of an ADC is characterized primarily by its sampling rate, and to a lesser extent by how it handles errors such as aliasing. The dynamic range of an ADC is influenced by many factors, including the resolution (the number of output levels it can quantize a signal to), linearity and accuracy (how well the quantization levels match the true analog signal) and jitter (small timing errors that introduce additional noise). The dynamic range of an ADC is often summarized in terms of its effective number of bits (ENOB), the number of bits of each measure it returns that are on average not noise. An ideal ADC has an ENOB equal to its resolution. ADCs are chosen to match the bandwidth and required signal to noise ratio of the signal to be quantized. If an ADC operates at a sampling rate greater than twice the bandwidth of the signal, then perfect reconstruction is possible given an ideal ADC and neglecting quantization error. The presence of quantization error limits the dynamic range of even an ideal ADC, however, if the dynamic range of the ADC exceeds that of the input signal, its effects may be neglected resulting in an essentially perfect digital representation of the input signal.An ADC may also provide an isolated measurement such as an electronic device that converts an input analog voltage or current to a digital number proportional to the magnitude of the voltage or current. However, some non-electronic or only partially electronic devices, such as rotary encoders, can also be considered ADCs. The digital output may use different coding schemes. Typically the digital output will be a two's complement binary number that is proportional to the input, but there are other possibilities. An encoder, for example, might output a Gray code.The inverse operation is performed by a digital-to-analog converter (DAC).