Measurement Computing USB-1608G User Manual

USB-1608G

User's Guide

Multifunction DAQ Device

Document Revision 1A
November 2014
© Copyright 2014

HM USB-1608G.docx

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Measurement Computing Corporation, InstaCal, Universal Library, and the Measurement Computing logo are
either trademarks or registered trademarks of Measurement Computing Corporation. Refer to the Copyrights &
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Other product and company names mentioned herein are trademarks or trade names of their respective
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© 2014 Measurement Computing Corporation. All rights reserved. No part of this publication may be
reproduced, stored in a retrieval system, or transmitted, in any form by any means, electronic, mechanical, by
photocopying, recording, or otherwise without the prior written permission of Measur
Corporation.

Notice

Measurement Computing Corporation does not authorize any Measurement Computing Corporation product for
use in life support systems and/or devices without prior written consent from Measurement Computing
Corporation. Life support devices/systems are devices or systems that, a) are intended for surgical implantation
into the body, or b) support or sustain life and whose failure to perform can be reasonably expected to result in
injury. Measurement Computing Corporation products are not designed with the components required, and are
not subject to the testing required to ensure a level of reliability suitable for the treatment and diagnosis of
people.

ement Computing

Table of Contents

Preface

About this User's Guide ....................................................................................................................... 5

What you will learn from this user's guide ......................................................................................................... 5

Conventions in this user's guide ......................................................................................................................... 5

Where to find more information ......................................................................................................................... 5

Chapter 1

Introducing the USB-1608G ................................................................................................................. 6

Functional block diagram ................................................................................................................................... 6

Chapter 2

Installing the USB-1608G ..................................................................................................................... 7

Unpacking........................................................................................................................................................... 7

Installing the software ........................................................................................................................................ 7

Installing the hardware ....................................................................................................................................... 7

Calibrating .......................................................................................................................................................... 7

Self-calibration ................................................................................................................................................................. 7

Factory calibration ............................................................................................................................................................ 7

Firmware updates ............................................................................................................................................... 7

Chapter 3

Functional Details ................................................................................................................................. 8

Analog input modes ............................................................................................................................................ 8

Software paced .................................................................................................................................................................. 8

Hardware paced ................................................................................................................................................................ 8

Burst mode.......................................................................................................................................................... 8

External components .......................................................................................................................................... 9

USB connector .................................................................................................................................................................. 9

LEDs ................................................................................................................................................................................. 9

Screw terminals................................................................................................................................................................. 9

Signal connections ............................................................................................................................................ 11

Analog input ....................................................................................................................................................................11

External clock I/O ............................................................................................................................................................12

Digital I/O ........................................................................................................................................................................12

Trigger input ....................................................................................................................................................................13

Counter input ...................................................................................................................................................................13

Timer output ....................................................................................................................................................................14

Power output ....................................................................................................................................................................14

Ground ................................................................................................................................................................ .............14

Mechanical drawings ................................................................................................................................ ........ 15

Chapter 4

Specifications ...................................................................................................................................... 16

Analog input ..................................................................................................................................................... 16

Accuracy ........................................................................................................................................................... 17

Analog input DC voltage measurement accuracy ............................................................................................................17

Noise performance ...........................................................................................................................................................17

Settling time .....................................................................................................................................................................17

Analog input calibration ................................................................................................................................... 17

Digital input/output........................................................................................................................................... 18

External trigger ................................................................................................................................ ................. 18

External clock input/output............................................................................................................................... 19

Counter ............................................................................................................................................................. 19

3

USB-1608G User's Guide

Timer ................................................................................................................................................................ 20

Memory ............................................................................................................................................................ 20

Power ................................................................................................................................................................ 20

USB .................................................................................................................................................................. 20

Environmental .................................................................................................................................................. 21

Mechanical ....................................................................................................................................................... 21

Screw terminal connector ................................................................................................................................. 21

Differential mode pinout ..................................................................................................................................................21

Single-ended mode pinout ...............................................................................................................................................22

Declaration of Conformity .................................................................................................................. 23

4

About this User's Guide

What you will learn from this user's guide

This user's guide describes the Measurement Computing USB-1608G data acquisition device and lists device
specifications.

Conventions in this user's guide

For more information

Text presented in a box signifies additional information and helpful hints related to the subject matter you are
reading.

Caution! Shaded caution statements present information to help you avoid injuring yourself and others,

damaging your hardware, or losing your data.

bold text Bold text is used for the names of objects on a screen, such as buttons, text boxes, and check boxes.

italic text Italic text is used for the names of manuals and help topic titles, and to emphasize a word or phrase.

Preface

Where to find more information

Additional information about the USB-1608G is available on our website at www.mccdaq.com. You can also
contact Measurement Computing Corporation by phone, fax, or email with specific questions.

 Knowledgebase: kb.mccdaq.com
 Tech support form: www.mccdaq.com/support/support_form.aspx
 Email: techsupport@mccdaq.com
 Phone: 508-946-5100 and follow the instructions for reaching Tech Support

For international customers, contact your local distributor. Refer to the International Distributors section on our
website at www.mccdaq.com/International.

5

Chapter 1

Introducing the USB-1608G

The USB-1608G is a USB 2.0 high-speed device that provides the following features:

 16 single-ended (SE) or eight differential (DIFF) analog input channels
 Eight individually configurable digital I/O channels
 Two counter channels (32-bit) that count TTL pulses
 One timer output channel (32-bit)
 Screw terminals for field wiring connections

The USB-1608G is powered by the +5 volt USB supply from your computer; no external power is required. A
USB cable is shipped with the device.

The USB-1608G device is compatible with both USB 1.1 and USB 2.0 ports. The speed of the device may be
limited when using a USB 1.1 port due to the difference in transfer rates on the USB 1.1 versions of the
protocol (low-speed and full-speed).

Functional block diagram

USB-1608G functions are illustrated in the block diagram shown here.

Figure 1. Functional block diagram

6

Chapter 2

Installing the USB-1608G

Unpacking

As with any electronic device, you should take care while handling to avoid damage from static
electricity. Before removing the device from its packaging, ground yourself using a wrist strap or by simply
touching the computer chassis or other grounded object to eliminate any stored static charge.

Contact us immediately if any components are missing or damaged.

Installing the software

Refer to the MCC DAQ Quick Start for instructions on installing the software on the MCC DAQ CD. Refer to
the device product page on the Measurement Computing website for information about the included and
optional software supported by the USB-1608G.

Install the software before you install your device

The driver needed to run the USB-1608G is installed with the software. Therefore, you need to install the
software package you plan to use before you install the hardware.

Installing the hardware

To connect a USB-1608G to your system, turn on your computer and connect the USB cable to an available
USB port on the computer or to an external USB hub connected to the computer. Connect the other end of the
USB cable to the USB connector on the device. No external power is required.

When you connect the device for the first time, a Found New Hardware dialog opens when the operating
system detects the device. The dialog closes after the device is installed.

A green Status LED indicates the device status. When the LED is on, the device is powered and ready for
operation. When the LED is off, the device is not powered or did not initialize. Figure 3 on page 9 shows the
location of the Status LED. If the Status LED is on but then turns off, the computer has lost communication
with the device. To restore communication, disconnect the USB cable from the computer and then reconnect it.
This should restore communication, and the LED should turn on.

Caution! Do not disconnect any device from the USB bus while the computer is communicating with

the USB-1608G, or you may lose data and/or your ability to communicate with the device.

Calibrating

Self-calibration

The USB-1608G supports self-calibration with InstaCal. Calibrate the device whenever the ambient temperature
changes by more than ±10 °C from the last self-calibration.

Factory calibration

The Measurement Computing Manufacturing Test department performs the initial factory calibration. Contact
Measurement Computing for details about how to return your device and have it calibrated to the factory
specifications.

Firmware updates

Your DAQ device contains firmware that can be updated in the field if required. Firmware is available for
download at www.mccdaq.com/firmware.aspx.We recommend that you check this page periodically to see if an
update to your device firmware is available.

7

Chapter 3

Functional Details

Analog input modes

The USB-1608G device can acquire analog input data in two basic modes – software paced and hardware
paced.

Software paced

You can acquire one analog sample at a time in software paced mode. You initiate the A/D conversion with a
software command. The analog value is converted to digital data and returned to the computer. Repeat this
procedure until you have the total number of samples that you want.

The sample rate in software paced mode is system-dependent and can range from 33 S/s to 4000 S/s.

Hardware paced

You can acquire data from up to 16 channels in hardware paced mode. The analog data is continuously
acquired, converted to digital values, and written into the FIFO buffer on the device until you stop the scan. The
FIFO buffer is serviced in blocks as the data is transferred from the FIFO buffer to the computer memory
buffer. You start a continuous scan with either a software command or with an external hardware trigger event.

The maximum sampling rate in hardware paced mode from one to 16 channels is 250 kS/s aggregate.

Burst mode

When using the onboard pacer, you can enable burst mode for more precise timing between samples. When
burst mode is enabled, each successive channel in a scan is sampled at the maximum A/D rate. This ensures that
samples from each channel are taken as close as possible to the same absolute point in time. When burst mode
is disabled, data is sampled at evenly spaced intervals, allowing maximum settling time and best amplitude
accuracy. Multi-channel scanning with burst mode enabled and disabled is shown in Figure 2.

Figure 2. Multi-channel scan with burst mode enabled and disabled

The burst mode sample period is 4 µs.
You can trigger the acquisition with the external trigger, and control the clock period with the internal or

external A/D pacer clock. Pacing from the external clock always operates with burst mode enabled.

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USB-1608G User's Guide Functional Details

1

Screw terminal pins 1 to 27

4

Activity LED

2

Screw terminal pins 28 to 54

5

USB connector

3

Status LED

External components

The USB-1608G has the following external components (see Figure 3):

 USB connector
 LEDs
 Screw terminals

Figure 3. External components

USB connector

The USB connector provides +5 V power and communication. No external power supply is required.

LEDs

The USB-1608G has two LEDs – Status and Activity.

 The Status LED turns on when the device is detected and installed on the computer.
 The Activity LED blinks when data is transferred, and is off otherwise.

Figure 3 shows the location of each LED.

Screw terminals

The screw terminals provide the following connections:

 16 SE (CH0 to CH15) or eight DIFF (CH0H/CH0L to CH7H/CH7L) analog inputs
 Eight digital I/O bits (DIO0 to DIO7)
 One external clock input (AICKI) and one external clock output (AICKO) for analog inputs
 One digital trigger input (TRIG)
 Two counter inputs (CTR0, CTR1)
 One timer output (TMR)
 One power output (+5V)
 Analog ground (AGND) and digital ground (GND) connections

The single-ended mode pinout is shown in Figure 4, and the differential mode pinout is shown in Figure 5.

9

USB-1608G User's Guide Functional Details

Figure 4. SE mode pinout

Figure 5. DIFF mode pinout

10

USB-1608G User's Guide Functional Details

Signal connections

Analog input

You can configure the analog inputs for SE or DIFF mode. The input voltage range is software selectable for
±10 V, ±5 V, ±2 V, or ±1 V.

With SE mode, connect up to 16 inputs to screw terminals CH0 to CH15. SE mode requires two wires:

 Connect one wire to the signal you want to measure (CHx).
 Connect one wire to the analog ground reference (AGND).

Refer to Figure 4 on page 10 for the location of the SE inputs.
With DIFF mode, connect up to eight differential inputs to screw terminals CH0H/CH0L to CH7H/CH7L.

DIFF mode requires two wires plus a ground reference:

 Connect one wire to the high/positive signal (CHxH).
 Connect one wire to the low/negative signal (CHxL).
 Connect one wire to the analog ground reference (AGND).

Refer to Figure 5 on page 10 for the location of the DIFF inputs.

Floating voltage source

When connecting DIFF voltage inputs to a "floating" voltage source, make sure the DIFF input channel has a
DC return path to ground. To create this path, connect a resistor from each low channel input to an AGND pin.
A value of approximately 100 kΩ can be used for most applications.

Leave unused input channels either floating or tied to an AGND terminal. Source impedances should be kept as
small as possible to avoid settling time and accuracy errors.

Figure 6 shows DIFF channels 0-3 connected to a ground path resistor.

Figure 6. DIFF connections with ground path resistor

Channel-gain queue

The USB-1608G channel-gain queue feature allows you to configure a list of channels, modes, and gains for
each scan. The settings are stored in a channel-gain queue list that is written to local memory on the device.

The channel-gain queue list contains one or more channel numbers, modes, and range settings. You can
configure up to 16 elements. The channels can be listed in any order, and can include duplicate channels for
sampling at different ranges.

11

USB-1608G User's Guide Functional Details

Element

Channel

Range

Mode

0

CH5

BIP5V

SE

1

CH1

BIP10V

DIFF

2

CH15

BIP1V

SE

3

CH5

BIP5V

SE

An example of a 4-element list is shown in the table below.

Sample channel-gain queue list

Carefully match the gain to the expected voltage range on the associated channel or an over range condition
may occur. Although this condition does not damage the device, it does produce a useless full-scale reading,
and can introduce a long recovery time due to saturation of the input channel.

For more information about analog signal connections

For more information about analog input connections, refer to the Guide to DAQ Signal Connections (available
on our web site at www.mccdaq.com/signals/signals.pdf).

External clock I/O

The device has one external clock input (AICKI) and one external clock output (AICKO) for the analog inputs.

 When using an external clock, AICKO outputs the pulse generated from AICKI.
 When using the internal clock, AICKO outputs the ADC scan clock.

Digital I/O

You can connect up to eight digital I/O lines to DIO0 through DIO7. Each digital channel is individually
configurable for input or output. The digital I/O terminals can detect the state of any TTL-level input. Refer to
the schematic shown in Figure 7.

Figure 7. Schematic showing switch detection by digital channel DIO0

If you set the switch to the +5 V input, DIO0 reads TRUE (1). If you move the switch to GND, DIO0 reads
FALSE (0).

Internal pull-up/down configuration

Unconnected inputs are pulled low by default to 0 V through 47 kΩ resistors via jumper W1 on the circuit
board. The pull-up/pull-down voltage is common to all 47 kΩ resistors. Complete the following steps to
configure these inputs to pull high (+5V).

Caution! The discharge of static electricity can damage some electronic components. Before removing the

device from its housing, ground yourself using a wrist strap or touch the computer chassis or other
grounded object to eliminate any stored static charge.

1. Turn the device over and rest the top of the housing on a flat, stable surface.

2. Peel off the four rubber feet on the bottom of the device to access the screws.

3. Remove the four screws from the bottom of the device.

4. Hold both the top and bottom sections together, turn the device over and rest it on the surface, then

carefully remove the top section of the case to expose the circuit board.

12

USB-1608G User's Guide Functional Details

5. Configure jumper W1 for either pull-up or pull-down. The jumper is configured by default for pull-down.

Figure 8 shows the location of the jumper on the board.

Figure 8. W1 jumper location

Figure 9 shows the jumper configured for pull-up and pull-down.

Figure 9. W1 jumper configurations

6. Replace the top section of the case, and fasten it to the bottom section with the four screws. Replace the

rubber feet onto each screw.

For more information about digital signal connections

For general information about digital signal connections and digital I/O techniques, refer to the Guide to Signal
Connections (available on our web site at www.mccdaq.com/signals/signals.pdf).

Trigger input

The TRIG terminal is an external digital trigger input. The trigger mode is software selectable for edge or level
sensitive.

 Edge sensitive mode is configurable for rising or falling edge.
 Level sensitive mode is configurable for high or low level.

The default setting at power up is edge sensitive, rising edge.

Retrigger mode

Retrigger mode lets you set up repetitive analog input or output trigger events. The trigger is automatically re­armed after it is activated. Use software to set the A/D or D/A trigger count (the number of samples you want
per trigger).

Counter input

The CTR0 and CTR1 terminals are 32-bit event counters that can accept frequency inputs up to 20 MHz. The
internal counter increments when the TTL levels transition from low to high.

13

USB-1608G User's Guide Functional Details

Timer output

The TMR terminal is a pulse width modulation (PWM) timer output that can generate a pulse output with a
programmable frequency in the range of 0.0149 Hz to 32 MHz. The timer output parameters are software
selectable. Figure 10 shows the timer output schematic.

Figure 10. Timer output schematic

Power output

The +5V terminal can output up to 10 mA maximum. You can use this terminal to supply power to external
devices or circuitry.

Caution! The +5V terminal is an output. Do not connect to an external power supply or you may damage the

device and possibly the computer.

Ground

The analog ground (AGND) terminals provide a common ground for all analog channels.
The digital ground (GND) terminals provide a common ground for the digital, counter, timer, and clock

channels and the power terminal.

14

USB-1608G User's Guide Functional Details

Mechanical drawings

Figure 11. USB-1608G circuit board (top) and enclosure dimensions

15

Parameter

Condition

Specification

A/D converter type

Successive approximation

ADC resolution

16 bits

Number of channels

8 differential, 16 single-ended
Software-selectable

Input voltage range

±10 V, ±5 V, ±2 V, ±1 V
Software-selectable per channel

Absolute max input voltage

CHx relative to AGND

 ±25 V max (power on)
 ±15 V max (power off)

Input impedance

 1 GΩ (power on)
 820 Ω (power off)

Input bias current

±10 nA

Input bandwidth

All input ranges,
small signal (–3 dB)

750 kHz

Input capacitance

60 pf

Max working voltage (signal
+ common mode)

±10V range

±10.2 V max relative to AGND

±5V range

±10.2 V max relative to AGND

±2V range

±9.5 V max relative to AGND

±1V range

±9.0 V max relative to AGND

Common mode rejection ratio

(fIN = 60 Hz, all input
ranges)

86 dB

Crosstalk

Adjacent differential mode
channels, DC to 100 kHz

–75 dB
Input coupling

DC

Sampling rate

0.0149 Hz to 250 kHz; software-selectable

Trigger source

TRIG (see External trigger on page 18)

Sample clock source

Internal A/D clock or external A/D clock (AICKI pin)

Burst mode

4 µs
Software-selectable using the internal A/D clock; always
enabled when using the external clock (AICKI pin).

Throughput
Software paced

33 to 4000 S/s typ, system dependent

Hardware paced

250 kS/s max

Channel gain queue

Up to 16 elements

Software-selectable range for each channel

Warm-up time

15 minutes min

Specifications

All specifications are subject to change without notice.
Typical for 25 °C unless otherwise specified.
Specifications in italic text are guaranteed by design.

Analog input

Table 1. General analog input specifications

Chapter 4

16

USB-1608G User's Guide Specifications

Range

Gain error
(% of reading)

Offset error
(µV)

INL error
(% of range)

Absolute
accuracy at
Full Scale
(µV)

Gain
temperature
coefficient
(% reading/°C)

Offset
temperature
coefficient
(µV/°C)

±10 V

0.024

915

0.0076

4075

0.0014

47

±5 V

0.024

686

0.0076

2266

0.0014

24

±2 V

0.024

336

0.0076

968

0.0014

10

±1 V

0.024

245

0.0076

561

0.0014

5

Range

Counts

LSBrms

±10 V

6

0.91

±5 V

6

0.91

±2 V

7

1.06

±1 V

9

1.36

Range

4 µS settling accuracy
(% FSR)

6 µS settling accuracy
(% FSR)

±10 µS settling accuracy
(% FSR)

±10 V

0.0061

0.0031

0.0015

±5 V

0.0061

0.0031

0.0015

±2 V

0.0061

0.0031

0.0015

±1 V

0.0061

0.0031

0.0015

Parameter

Specification

Recommended warm-up time

15 minutes min

Calibration method

Self-calibration (firmware)

Calibration interval

1 year (factory calibration)

Calibration reference

+5 V, ±2.5 mV max. Actual measured values stored in EEPROM.

Tempco: 5 ppm/°C max

Long term stability: 15 ppm/1000 hours

Accuracy

Analog input DC voltage measurement accuracy

Table 2. DC accuracy components and specifications. All values are (±)

Noise performance

For the peak-to-peak noise distribution test, a differential input channel is connected to AGND at the input
terminal block, and 32,000 samples are acquired at the maximum rate available at each setting.

Table 3. Noise performance specifications

Settling time

Settling time is defined as the accuracy that can be expected after one conversion when switching from a
channel with a DC input at one extreme of full scale to another channel with a DC input at the other extreme of
full scale. Both input channels are configured for the same input range.

Table 4. Input settling time specifications in µS, typical

Analog input calibration

Table 5. Analog input calibration specifications

17

USB-1608G User's Guide Specifications

Parameter

Specification

Digital type

CMOS

Number of I/O

8

Configuration

Each bit may be configured as input (power on default) or output

Pull-up configuration

The port has 47 kΩ resistors configurable as pull-ups or pull-downs (default) via
internal jumper (W1).

Digital I/O transfer rate
(system-paced)

33 to 8000 port reads/writes or single bit reads/writes per second typ,
system dependent.

Input high voltage

2.0 V min

5.5 V absolute max

Input low voltage

0.8 V max
–0.5 V absolute min
0 V recommended min

Output high voltage

4.4 V min (IOH = –50 µA)

3.76 V min (IOH = –2.5 mA)

Output low voltage

0.1 V max (IOL = 50 µA)

0.44 V max (IOL = 2.5 mA)

Output current

±2.5 mA max

Parameter

Specification

Trigger source

TRIG input

Trigger mode

Software programmable for edge or level sensitive, rising or falling edge, high or low
level. Power on default is edge sensitive, rising edge.

Trigger latency

1 µs + 1 clock cycle max

Trigger pulse width

100 ns min

Input type

Schmitt trigger, 33 Ω series resistor and 49.9 kΩ pull-down to ground

Schmitt trigger hysteresis

0.4 V to 1.2 V

Input high voltage

2.2 V min

5.5 V absolute max

Input low voltage

1.5 V max
–0.5 V absolute min
0 V recommended min

Digital input/output

Table 6. Digital I/O specifications

External trigger

Table 7. External trigger specifications

18

USB-1608G User's Guide Specifications

Parameter

Specification

Terminal names

AICKI, AICKO

Terminal types

AICKI: Input, active on rising edge
AICKO: Output, power on default is 0 V, active on rising edge

Terminal descriptions

AICKI: Receives sampling clock from external source

AICKO: Outputs the internal A/D sampling clock, or the pulse generated from AICKI
when in external clock mode.

Input clock rate

250 kHz max

Clock pulse width
AICKI: 400 ns min

AICKO: 400 ns min

Input type

Schmitt trigger, 33 Ω series resistor, 47 kΩ pull-down to ground

Schmitt trigger hysteresis

0.4 V to 1.2 V

Input high voltage

2.2 V min

5.5 V absolute max

Input low voltage

1.5 V max
–0.5 V absolute min
0 V recommended min

Output high voltage

4.4 V min (IOH = –50 µA)

3.76 V min (IOH = –2.5 mA)

Output low voltage

0.1 V max (IOL = 50 µA)

0.44 V max (IOL = 2.5 mA)

Output current

±2.5 mA max

Parameter

Specification

Terminal names

CTR0, CTR1

Number of channels

2 channels

Resolution

32-bit

Counter type

Event counter

Input type

Schmitt trigger, 33 Ω series resistor, 47 kΩ pull-down to ground

Input source

CTR0 (pin 52)
CTR1 (pin 51)

Counter read/writes rates
(software paced)

33 to 8000 reads/writes per second typ, system dependent
Input high voltage

2.2 V min, 5.5 V max

Input low voltage

1.5 V max, –0.5 V min

Schmitt trigger hysteresis

0.4 V min, 1.2 V max

Input frequency

20 MHz, max

High pulse width

25 ns, min

Low pulse width

25 ns, min

External clock input/output

Table 8. External clock I/O specifications

Counter

Table 9. Counter specifications

19

USB-1608G User's Guide Specifications

Parameter

Specification

Terminal name

TMR

Timer type

PWM output with count, period, delay, and pulse width registers

Output value

Default state is idle low with pulses high, software-selectable output invert

Internal clock frequency

64 MHz

Register widths

32-bit

High pulse width

15.625 ns min

Low pulse width

15.625 ns min

Output high voltage

4.4 V min (IOH = –50 µA)

3.76 V min (IOH = –2.5 mA)

Output low voltage

0.1 V max (IOL = 50 µA)

0.44 V max (IOL = 2.5 mA)

Output current

±2.5 mA max

Parameter

Specification

Data FIFO

4 kS analog input

Non-volatile memory

32 KB (28 KB firmware storage, 4 KB calibration/user data)

Parameter

Condition

Specification

Supply current (Note 1)

Quiescent current

230 mA

+5 V user output voltage range

Available at terminal block pin 42

4.5 V min to 5.25 V max

+5 V user output current

Available at terminal block pin 42

10 mA max

Parameter

Specification

USB device type

USB 2.0 (high-speed)

Device compatibility

USB 1.1, USB 2.0

USB cable type

A-B cable, UL type AWM 2725 or equivalent. (Min 24 AWG VBUS/GND,
min 28 AWG D+/D–)

USB cable length

3 m (9.84 ft) max

Timer

Table 10. Timer specifications

Memory

Table 11. Memory specifications

Power

Table 12. Power specifications

Note 1: This is the total quiescent current requirement for the device that includes up to 10 mA for the Status

LED. This does not include any potential loading of the digital I/O bits or the +5V terminal.

USB

Table 13. USB specifications

20

USB-1608G User's Guide Specifications

Parameter

Specification

Operating temperature range

0 °C to 55 °C max

Storage temperature range

–40 °C to 85 °C max

Humidity

0% to 90% non-condensing max

Parameter

Specification

Dimensions (L × W × H)

127 × 89.9 × 35.6 mm (5.00 × 3.53 × 1.40 in.)

User connection length

3 m (9.84 ft) max

Parameter

Specification

Connector type

Screw terminal

Wire gauge range

16 AWG to 30 AWG

Pin

Signal name

Pin description

Pin

Signal name

Pin description

1

CH0H

AI channel 0 HI

28

CH7L

AI channel 7 LO

2

CH0L

AI channel 0 LO

29

CH7H

AI channel 7 HI

3

AGND

Analog ground

30

AGND

Analog ground

4

CH1H

AI channel 1 HI

31

CH6L

AI channel 6 LO

5

CH1L

AI channel 1 LO

32

CH6H

AI channel 6 HI

6

AGND

Analog ground

33

AGND

Analog ground

7

CH2H

AI channel 2 HI

34

CH5L

AI channel 5 LO

8

CH2L

AI channel 2 LO

35

CH5H

AI channel 5 HI

9

AGND

Analog ground

36

AGND

Analog ground

10

CH3H

AI channel 3 HI

37

CH4L

AI channel 4 LO

11

CH3L

AI channel 3 LO

38

CH4H

AI channel 4 HI

12

AGND

Analog ground

39

AGND

Analog ground

13

NC

No connection

40

AGND

Analog ground

14

AGND

Analog ground

41

AGND

Analog ground

15

NC

No connection

42

+5V

+5V power output

16

AGND

Analog ground

43

AGND

Analog ground

empty

empty

17

GND

Digital ground

44

GND

Digital ground

18

DIO0

DIO channel 0

45

AICKI

AI clock input

19

DIO1

DIO channel 1

46

AICKO

AI clock output

20

DIO2

DIO channel 2

47

NC

No connection

21

DIO3

DIO channel 3

48

NC

No connection

22

DIO4

DIO channel 4

49

TRIG

Trigger input

23

DIO5

DIO channel 5

50

GND

Digital ground

24

DIO6

DIO channel 6

51

CTR1

Counter 1 input

25

DIO7

DIO channel 7

52

CTR0

Counter 0 input

26

GND

Digital ground

53

TMR

Timer output

27

NC

No connection

54

GND

Digital ground

Environmental

Table 14. Environmental specifications

Mechanical

Table 15. Mechanical specifications

Screw terminal connector

Table 16. Screw terminal connector specifications

Differential mode pinout

Table 17. 8-channel differential mode pinout

21

USB-1608G User's Guide Specifications

Pin

Signal name

Pin description

Pin

Signal name

Pin description

1

CH0

AI channel 0

28

CH15

AI channel 15

2

CH8

AI channel 8

29

CH7

AI channel 7

3

AGND

Analog ground

30

AGND

Analog ground

4

CH1

AI channel 1

31

CH14

AI channel 14

5

CH9

AI channel 9

32

CH6

AI channel 6

6

AGND

Analog ground

33

AGND

Analog ground

7

CH2

AI channel 2

34

CH13

AI channel 13

8

CH10

AI channel 10

35

CH5

AI channel 5

9

AGND

Analog ground

36

AGND

Analog ground

10

CH3

AI channel 3

37

CH12

AI channel 12

11

CH11

AI channel 11

38

CH4

AI channel 4

12

AGND

Analog ground

39

AGND

Analog ground

13

NC

No connection

40

AGND

Analog ground

14

AGND

Analog ground

41

AGND

Analog ground

15

NC

No connection

42

+5V

+5V power output

16

AGND

Analog ground

43

AGND

Analog ground

empty

empty

17

GND

Digital ground

44

GND

Digital ground

18

DIO0

DIO channel 0

45

AICKI

AI clock input

19

DIO1

DIO channel 1

46

AICKO

AI clock output

20

DIO2

DIO channel 2

47

NC

No connection

21

DIO3

DIO channel 3

48

NC

No connection

22

DIO4

DIO channel 4

49

TRIG

Trigger input

23

DIO5

DIO channel 5

50

GND

Digital ground

24

DIO6

DIO channel 6

51

CTR1

Counter 1 input

25

DIO7

DIO channel 7

52

CTR0

Counter 0 input

26

GND

Digital ground

53

TMR

Timer output

27

NC

No connection

54

GND

Digital ground

Single-ended mode pinout

Table 18. 16-channel single-ended mode pinout

22

Declaration of Conformity

Manufacturer: Measurement Computing Corporation
Address: 10 Commerce Way
Suite 1008
Norton, MA 02766
USA

Category: Electrical equipment for measurement, control and laboratory use.
Measurement Computing Corporation declares under sole responsibility that the products

USB-1608G

to which this declaration relates is in conformity with the relevant provisions of the following standards or other
documents:

EC EMC Directive 2004/108/EC: General Requirements, EN 61326-1:2006 (IEC 61326-1:2005).
Emissions:

 EN 55011 (2007) / CISPR 11(2003): Radiated emissions: Group 1, Class A
 EN 55011 (2007) / CISPR 11(2003): Conducted emissions: Group 1, Class A

Immunity: EN 61326-1:2006, Table 3.

 IEC 61000-4-2 (2001): Electrostatic Discharge immunity.
 IEC 61000-4-3 (2002): Radiated Electromagnetic Field immunity.

To maintain compliance to the standards of this declaration, the following conditions must be met.

 The host computer, peripheral equipment, power sources, and expansion hardware must be CE

compliant.

 All I/O cables must be shielded, with the shields connected to ground.
 I/O cables must be less than 3 meters (9.75 feet) in length.
 The host computer must be properly grounded.
 The host computer must be USB 2.0 compliant.
 Equipment must be operated in a controlled electromagnetic environment as defined by Standards EN

61326-1:2006, or IEC 61326-1:2005.

Note: Data acquisition equipment may exhibit noise or increased offsets when exposed to high RF fields
(>1V/m) or transients.

Declaration of Conformity based on tests conducted by Chomerics Test Services, Woburn, MA 01801, USA in
October, 2010. Test records are outlined in Chomerics Test Report #EMI5736.10.

We hereby declare that the equipment specified conforms to the above Directives and Standards.

Carl Haapaoja, Director of Quality Assurance

Measurement Computing Corporation

10 Commerce Way

Suite 1008

Norton, Massachusetts 02766

(508) 946-5100

Fax: (508) 946-9500

E-mail: info@mccdaq.com

www.mccdaq.com