DESCRIPTION
... The K661 provides a full scale output of ±300 VDC at up to 3 milliamperes of current. The unit can be programmed for 50, 100, or 200 volts per 1000 RPM by a jumper on TB1. The K661 provides a high conversion speed for a very stable linear output. Because only the encoder or pulse generator is mounte ...
... The K661 provides a full scale output of ±300 VDC at up to 3 milliamperes of current. The unit can be programmed for 50, 100, or 200 volts per 1000 RPM by a jumper on TB1. The K661 provides a high conversion speed for a very stable linear output. Because only the encoder or pulse generator is mounte ...
Pulse and Digital Circuits Lab MANUAL ONLY FOR REFERENCE
... The diode being ideal, no forward voltage may appear across it. During this first quarter cycle the capacitor voltage VA = Vi . The voltage across C rises sinusoidally, the capacitor is charged through the series combination of the signal source and the diode. Throughout this first quarter cycle the ...
... The diode being ideal, no forward voltage may appear across it. During this first quarter cycle the capacitor voltage VA = Vi . The voltage across C rises sinusoidally, the capacitor is charged through the series combination of the signal source and the diode. Throughout this first quarter cycle the ...
AT91SAM7S128数据手册DataSheet 下载
... allowing the device to be supplied with only one voltage. The six power supply pin types are: • VDDIN pin. It powers the voltage regulator and the ADC; voltage ranges from 3.0V to 3.6V, 3.3V nominal. • VDDOUT pin. It is the output of the 1.8V voltage regulator. • VDDIO pin. It powers the I/O lines a ...
... allowing the device to be supplied with only one voltage. The six power supply pin types are: • VDDIN pin. It powers the voltage regulator and the ADC; voltage ranges from 3.0V to 3.6V, 3.3V nominal. • VDDOUT pin. It is the output of the 1.8V voltage regulator. • VDDIO pin. It powers the I/O lines a ...
MAX3816A.pdf
... desired (noncompliant VOL from displays and noncompliant VIH from sources are common). Further, the parallel mode can be operated with other speed-up devices on the same bus, either active (DRVR_EN = HI) or in bypass (DRVR_EN = LO). Series mode is preferred for applications where high tolerance to g ...
... desired (noncompliant VOL from displays and noncompliant VIH from sources are common). Further, the parallel mode can be operated with other speed-up devices on the same bus, either active (DRVR_EN = HI) or in bypass (DRVR_EN = LO). Series mode is preferred for applications where high tolerance to g ...
1. Introduction - About the journal
... devices used or due to imperfections of technological processes in the case of on-chip implementation. As mentioned above, the second oscillator circuit was implemented using the OPA860 DTs for experimental purposes. Major real influences are described in the DT datasheet [14]. For simplicity, consi ...
... devices used or due to imperfections of technological processes in the case of on-chip implementation. As mentioned above, the second oscillator circuit was implemented using the OPA860 DTs for experimental purposes. Major real influences are described in the DT datasheet [14]. For simplicity, consi ...
TPS40020 数据资料 dataSheet 下载
... function provides pulse-by-pulse current limiting during soft-start and short term transient conditions as well as a fault counter to handle longer duration short circuit current conditions. If a fault is detected the controller shuts down for a period of time determined by six (6) consecutive soft- ...
... function provides pulse-by-pulse current limiting during soft-start and short term transient conditions as well as a fault counter to handle longer duration short circuit current conditions. If a fault is detected the controller shuts down for a period of time determined by six (6) consecutive soft- ...
AN-803: Pin Compatible High Speed ADCs Simplify Design Tasks
... variety of user-selectable input ranges and commonmode voltages, including single-ended applications. It suits both multiplexed applications that switch full-scale voltage levels in successive channels, and single-channel applications that undersample signals at frequencies well beyond the Nyquist r ...
... variety of user-selectable input ranges and commonmode voltages, including single-ended applications. It suits both multiplexed applications that switch full-scale voltage levels in successive channels, and single-channel applications that undersample signals at frequencies well beyond the Nyquist r ...
Product Specification Thermal Print Head Model: MO-S2-8-5A2
... of the receiving substrate (i.e. thermal paper) the produced image will “smear”. To eliminate this phenomenon, the energy applied to a dot per printing cycle has to be limited. Besides simply slowing down the print speed (which is not really an acceptable option for demanding applications such as la ...
... of the receiving substrate (i.e. thermal paper) the produced image will “smear”. To eliminate this phenomenon, the energy applied to a dot per printing cycle has to be limited. Besides simply slowing down the print speed (which is not really an acceptable option for demanding applications such as la ...
Title A 60 GHz 25% tuning range frequency generator with implicit
... needed on the feedforward path. Fortunately, mm-wave buffers and PAs are usually loaded by LC tanks, which are natural band-pass filters (BPF). Therefore, their natural BPF filtering is exploited here to reject the ∼20 GHz fundamental frequency component. III. T HIRD H ARMONIC B OOSTING T ECHNIQUES ...
... needed on the feedforward path. Fortunately, mm-wave buffers and PAs are usually loaded by LC tanks, which are natural band-pass filters (BPF). Therefore, their natural BPF filtering is exploited here to reject the ∼20 GHz fundamental frequency component. III. T HIRD H ARMONIC B OOSTING T ECHNIQUES ...
TSC2008 数据资料 dataSheet 下载
... handheld applications that are based on advanced low-voltage processors. It works with a supply voltage as low as 1.2V, which can be supplied by a single-cell battery. It contains a complete, ultra-low power, 12-bit, analog-to-digital (A/D) resistive touch screen converter, including drivers and the ...
... handheld applications that are based on advanced low-voltage processors. It works with a supply voltage as low as 1.2V, which can be supplied by a single-cell battery. It contains a complete, ultra-low power, 12-bit, analog-to-digital (A/D) resistive touch screen converter, including drivers and the ...
MAX5090A/B/C 2A, 76V, High-Efficiency MAXPower Step-Down DC-DC Converters General Description
... The MAX5090A/B/C easy-to-use, high-efficiency, highvoltage step-down DC-DC converters operate from an input voltage up to 76V, and consume only 310µA quiescent current at no load. This pulse-width-modulated (PWM) converter operates at a fixed 127kHz switching frequency at heavy loads, and automatica ...
... The MAX5090A/B/C easy-to-use, high-efficiency, highvoltage step-down DC-DC converters operate from an input voltage up to 76V, and consume only 310µA quiescent current at no load. This pulse-width-modulated (PWM) converter operates at a fixed 127kHz switching frequency at heavy loads, and automatica ...
H7GP/H7HP Total Counter/Time Counter
... ■ Terminal Arrangement Note: 1. Incremented for count 1 (CP1) inputs; decremented for count 2 (CP2) inputs. 2. Non-contact input is also available. ...
... ■ Terminal Arrangement Note: 1. Incremented for count 1 (CP1) inputs; decremented for count 2 (CP2) inputs. 2. Non-contact input is also available. ...
Time-to-digital converter
In electronic instrumentation and signal processing, a time to digital converter (abbreviated TDC) is a device for recognizing events and providing a digital representation of the time they occurred. For example, a TDC might output the time of arrival for each incoming pulse. Some applications wish to measure the time interval between two events rather than some notion of an absolute time.In electronics time-to-digital converters (TDCs) or time digitizers are devices commonly used to measure a time interval and convert it into digital (binary) output. In some cases interpolating TDCs are also called time counters (TCs).TDCs are used in many different applications, where the time interval between two signal pulses (start and stop pulse) should be determined. Measurement is started and stopped, when either the rising or the falling edge of a signal pulse crosses a set threshold. These requirements are fulfilled in many physical experiments, like time-of-flight and lifetime measurements in atomic and high energy physics, experiments that involve laser ranging and electronic research involving the testing of integrated circuits and high-speed data transfer.