Measurement Specialties USB-1616HS-2 block diagram, USB-1616HS-2 functional block diagram

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USB-1616HS-2 User's Guide

Functional Details

USB-1616HS-2 block diagram

Figure 6 shows a simplified block diagram of the USB-1616HS-2. This board provides all of the functional elements shown in the figure.

	16-bit				1 MHz

2	D/A converters				output clock

			8 diff/16 SE
			analog inputs		Programmable gain
					Programmable gain
		Analog channel	MUX		x1, x2,	amplifier
		Analog channel
	16	input protection
	16	input protection			x5, x10, x20			16-bit, 1 MHz
					x5, x10, x20			16-bit, 1 MHz
		One TTL			x50, x100			A/D converter
	2	One TTL	A
	2	trigger input	A					A
		One analog						A
		One analog			512-step
		input pacer clock			512-step		1 MHz
					random access		1 MHz
					channel/gain		input clock
					sequencer			1 MSample
8								1 MSample
8		Two 16-bit				Sequencer reset		FIFO
								FIFO
	2							Data Buffer
	2	Timer outputs			Programmable
					Programmable
		Four 32-bit			sequencer
	2	Four 32-bit			timebase
8	2	counter inputs			1 µ s to 6 hours
	2
	24	Three 8-bit	A
	24	DIO ports	A
				System		USB		USB port
				System		USB
			controller			controller
DSUB25F								External
Expansion connector								External
								power
			Configurable			Configurable		DC to DC
				PLD		EPROM		converter
								Connect the optional
								power supply
								if the USB cannot
								supply enough power.

Figure 6. USB-1616HS-2 functional block diagram

Synchronous I/O – mixing analog, digital, and counter scanning

The USB-1616HS-2 can read analog, digital, and counter inputs, while generating up to two analog outputs and digital pattern outputs at the same time. Digital and counter inputs do not affect the overall A/D rate because these inputs use no time slot in the scanning sequencer.

For example, one analog input channel can be scanned at the full 1 MHz A/D rate along with digital and counter input channels. Each analog channel can have a different gain, and counter and digital channels do not need additional scanning bandwidth as long as there is at least one analog channel in the scan group.

Digital input channel sampling is not done during the "dead time" of the scan period where no analog sampling is being done either.

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Contents Page USB-1616HS-2 Management committed to your satisfaction Trademark and Copyright Information Table of Contents USB-1616HS-2 Users Guide What you will learn from this users guide Where to find more informationAbout this Users Guide Conventions used in this users guideIntroducing the USB-1616HS-2 Overview USB-1616HS-2 featuresSoftware features ChapterWhat comes with your USB-1616HS-2 shipment? Installing the USB-1616HS-2TR-2U power supply and CA-1* line cord HardwareAdditional documentation Installing the softwareUnpacking the USB-1616HS-2 CA-96A expansion cableInstalling the hardware Connectors, cables main I/O connector Configuring the hardwareConnecting the board for I/O operations Information on signal connectionsScrew terminal pin outs USB-1616HS-2 screw terminal pin out single-ended connectionsDSUB25F expansion connector DSUB25 expansion connector pin outCabling CA-96A expansion cableFunctional Details USB-1616HS-2 componentsExternal power connector USB-1616HS-2 components rear viewUSB-1616HS-2 block diagram USB-1616HS-2 functional block diagramSettling time Analog inputAnalog input scanning Example Analog channel scanning of voltage inputsExample Analog and digital scanning, once per scan mode Analog and digital scanning, once per scan mode exampleAnalog and digital scanning, once per scan mode example Shielding Tips for making accurate temperature measurementsThermocouple input AveragingAnalog output Digital input scanning Digital I/OTriggering Digital outputs and pattern generationHardware analog triggering Digital triggeringSoftware-based triggering Counter inputs Stop trigger modesPre-triggering and post-triggering modes Mapped channels Totalize modeTips for making high-speed counter measurements 1 MHz Counter modesDebounce modes Trigger after stable mode Trigger before stable modeDebounce mode comparisons Debounce module Trigger before stable modeEncoder mode Optimal debounce time for trigger before stable modeRepresentation of rotary shaft quadrature encoder Connecting the USB-1616HS-2 to an encoder Maximizing encoder accuracyTimer outputs Example Timer outputsTimer output frequency examples Using multiple USB-1616HS-2s per PC Detection setpoint overviewCriteria input signal is equal to Action driven by condition Setpoint configuration Using the setpoint status registerDetecting on analog input, DAC, and Firstportc updates Examples of control outputsDetection on an analog input, timer output updates Analog inputs with setpoints update on True and FalseUsing the hysteresis function Timer output update on True and FalseUsing multiple inputs to control one DAC output Detecting setpoints on a totalizing counterFIRSTPORTC, DAC, or timer update latency Controlling analog, digital, and timer outputsDetection setpoint details Firstportc Calibrating the USB-1616HS-2 Analog input accuracy specifications SpecificationsAnalog input specifications AccuracyThermocouples Analog output specificationsAnalog outputs Thermocouple TC types and accuracy NoteDigital input/output specifications Digital input/outputCounters Counter specificationsInput sequencer specifications Input sequencerPower consumption specifications Note Power consumptionFrequency/pulse generator specifications Frequency/pulse generatorsSignal I/O connectors and pin out External powerUSB specifications EnvironmentalUSB-1616HS-2 screw terminal pin out single-ended connections USB-1616HS-2 screw terminal pin out differential connections Declaration of Conformity USAMailinfo@mccdaq.com