Collection: T-Series Devices

T-series devices are supported by the LJM library, which simplifies device communication.

T-series devices use the Modbus TCP protocol, so direct Modbus may be used for communication. All T-Series devices support both USB & Ethernet data acquisition, improving and simplifying where you can begin collecting analog and digital sensors and signals.

Explore a full list of software options for LabJack T-Series hardware.

LabJack T7

Regular price Sale price $550
View Product

LabJack T4

Regular price Sale price $280
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LabJack T8

Regular price Sale price $1,400
View Product

LabJack T7-Pro

Regular price Sale price $850
View Product

What data acquisition equipment is right for me?

LabJack is Helping Engineers smile more and stress less, with our Product Comparison Table:

LabJack T4 - LabJack
LabJack T7 - LabJack
LabJack T7-Pro - LabJack
LabJack T8 - LabJack
LabJack U3-LV - LabJack
LabJack U3-HV - LabJack
LabJack U6 - LabJack
LabJack U6-Pro - LabJack
LabJack U12 - LabJack
LabJack T7 - LabJack
LabJack T4 - LabJack
LabJack T7-Pro - LabJack
LabJack T8 - LabJack
LabJack U3-LV - LabJack
LabJack U3-HV - LabJack
LabJack U6 - LabJack
LabJack U6-Pro - LabJack
LabJack U12 - LabJack
LabJack T8 - LabJack
LabJack T4 - LabJack
LabJack T7 - LabJack
LabJack T7-Pro - LabJack
LabJack U3-LV - LabJack
LabJack U3-HV - LabJack
LabJack U6 - LabJack
LabJack U6-Pro - LabJack
LabJack U12 - LabJack
LabJack T4 - LabJack
LabJack T7 - LabJack
LabJack T7-Pro - LabJack
LabJack T8 - LabJack
LabJack U12 - LabJack
LabJack U3-HV - LabJack
LabJack U3-LV - LabJack
LabJack U6 - LabJack
LabJack U6-Pro - LabJack
Price
Regular price Sale price $280
Regular price Sale price $550
Regular price Sale price $850
Regular price Sale price $1,400
Regular price Sale price $160
Regular price Sale price $160
Regular price Sale price $410
Regular price Sale price $490
Regular price Sale price $230
Regular price Sale price $550
Regular price Sale price $280
Regular price Sale price $850
Regular price Sale price $1,400
Regular price Sale price $160
Regular price Sale price $160
Regular price Sale price $410
Regular price Sale price $490
Regular price Sale price $230
Regular price Sale price $1,400
Regular price Sale price $280
Regular price Sale price $550
Regular price Sale price $850
Regular price Sale price $160
Regular price Sale price $160
Regular price Sale price $410
Regular price Sale price $490
Regular price Sale price $230
Regular price Sale price $280
Regular price Sale price $550
Regular price Sale price $850
Regular price Sale price $1,400
Regular price Sale price $230
Regular price Sale price $160
Regular price Sale price $160
Regular price Sale price $410
Regular price Sale price $490
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes-PoE Compatible
No
No
No
No
No
Yes
Yes
Yes
Yes-PoE Compatible
No
No
No
No
No
Yes-PoE Compatible
Yes
Yes
Yes
No
No
No
No
No
Yes
Yes
Yes
Yes-PoE Compatible
No
No
No
No
No
±10V (AIN0-3), 0-2.5V (AIN4-11)
±10V, ±1V, ±0.1V and ±0.01V
±10V, ±1V, ±0.1V and ±0.01V
±11V, ±9.7V, ±4.8V, ±2.4V,±1.2V, ±0.6V, ±0.3V, ±0.15V, and ±0.075V
0-2.4V, 0-3.6V
4x ±10V, plus 12x 0-2.4V
±10V, ±1V, ±0.1V, ±0.01V
±10V,±1V,±0.1V,±0.01V
±10V
±10V, ±1V, ±0.1V and ±0.01V
±10V (AIN0-3), 0-2.5V (AIN4-11)
±10V, ±1V, ±0.1V and ±0.01V
±11V, ±9.7V, ±4.8V, ±2.4V,±1.2V, ±0.6V, ±0.3V, ±0.15V, and ±0.075V
0-2.4V, 0-3.6V
4x ±10V, plus 12x 0-2.4V
±10V, ±1V, ±0.1V, ±0.01V
±10V,±1V,±0.1V,±0.01V
±10V
±11V, ±9.7V, ±4.8V, ±2.4V,±1.2V, ±0.6V, ±0.3V, ±0.15V, and ±0.075V
±10V (AIN0-3), 0-2.5V (AIN4-11)
±10V, ±1V, ±0.1V and ±0.01V
±10V, ±1V, ±0.1V and ±0.01V
0-2.4V, 0-3.6V
4x ±10V, plus 12x 0-2.4V
±10V, ±1V, ±0.1V, ±0.01V
±10V,±1V,±0.1V,±0.01V
±10V
±10V (AIN0-3), 0-2.5V (AIN4-11)
±10V, ±1V, ±0.1V and ±0.01V
±10V, ±1V, ±0.1V and ±0.01V
±11V, ±9.7V, ±4.8V, ±2.4V,±1.2V, ±0.6V, ±0.3V, ±0.15V, and ±0.075V
±10V
4x ±10V, plus 12x 0-2.4V
0-2.4V, 0-3.6V
±10V, ±1V, ±0.1V, ±0.01V
±10V,±1V,±0.1V,±0.01V
12-bit
24 bit
12-bit
12 bits
16-bit
12-bits
12-bit
24 bit
12-bit
12 bits
16-bit
12-bits
24 bit
12-bit
12-bit
12 bits
16-bit
12-bits
12-bit
24 bit
12-bits
12 bits
12-bit
16-bit
14
14
8
Up to 16
16
14
14
8
14
14
8
Up to 16
16
14
14
8
8
14
14
Up to 16
16
14
14
8
14
14
8
8
16
Up to 16
14
14
Unsupported
84
84
Unsupported
Unsupported
Unsupported
84
84
Unsupported
84
Unsupported
84
Unsupported
Unsupported
Unsupported
84
84
Unsupported
Unsupported
Unsupported
84
84
Unsupported
Unsupported
84
84
Unsupported
Unsupported
84
84
Unsupported
Unsupported
Unsupported
Unsupported
84
84
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
Yes
No
Yes
Yes
No
Yes
Yes
Yes
No
No
Yes
Yes
No
Yes
No
Yes
Yes
No
No
Yes
Yes
No
Yes
No
Yes
Yes
No
No
Yes
Yes
No
No
Yes
Yes
Yes
No
No
No
Yes
Yes
40 kSPS per ch
50 kSPS
50 kSPS
50 kSPS
50 kSPS
1.2 kSPS
40 kSPS per ch
50 kSPS
50 kSPS
50 kSPS
50 kSPS
1.2 kSPS
40 kSPS per ch
50 kSPS
50 kSPS
50 kSPS
50 kSPS
1.2 kSPS
40 kSPS per ch
1.2 kSPS
50 kSPS
50 kSPS
50 kSPS
50 kSPS
No
No
No
1kV
No
No
No
No
No
No
No
No
1kV
No
No
No
No
No
1kV
No
No
No
No
No
No
No
No
No
No
No
1kV
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
Yes
No
No
No
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
23
23
20
16
16
20
20
20
23
23
20
16
16
20
20
20
20
23
23
16
16
20
20
20
23
23
20
20
16
16
20
20
2x 10-bit
2x 12-bit
2x 12-bit
2x 16-bit
2x 10-bit
2x 10-bit
2x 12-bit
2-12bit
2x 10-bit
2x 12-bit
2x 10-bit
2x 12-bit
2x 16-bit
2x 10-bit
2x 10-bit
2x 12-bit
2-12bit
2x 10-bit
2x 16-bit
2x 10-bit
2x 12-bit
2x 12-bit
2x 10-bit
2x 10-bit
2x 12-bit
2-12bit
2x 10-bit
2x 10-bit
2x 12-bit
2x 12-bit
2x 16-bit
2x 10-bit
2x 10-bit
2x 10-bit
2x 12-bit
2-12bit
Up to 16
Up to 19
up to 19
Up to 20
Up to 16
Up to 16
Up to 19
Up to 19
Unsupported
Up to 19
Up to 16
up to 19
Up to 20
Up to 16
Up to 16
Up to 19
Up to 19
Unsupported
Up to 20
Up to 16
Up to 19
up to 19
Up to 16
Up to 16
Up to 19
Up to 19
Unsupported
Up to 16
Up to 19
up to 19
Up to 20
Unsupported
Up to 16
Up to 16
Up to 19
Up to 19
No
No
Yes
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
No
No
Yes
No
No
No
No
No
No
Yes
Yes
Yes
Yes
No
No
No
No
No
Yes
Yes
Yes
Yes
No
No
No
No
No
Yes
Yes
Yes
Yes
No
No
No
No
No
Yes
Yes
Yes
Yes
No
No
No
No
No
Active
Active
Active
Active
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
NRND
Active
Active
Active
Active
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
NRND
Active
Active
Active
Active
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
NRND
Active
Active
Active
Active
NRND
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
Active ~2030 expected EOL
Yes
Yes
Yes
Yes-5x More Space than T7
No
No
No
No
No
Yes
Yes
Yes
Yes-5x More Space than T7
No
No
No
No
No
Yes-5x More Space than T7
Yes
Yes
Yes
No
No
No
No
No
Yes
Yes
Yes
Yes-5x More Space than T7
No
No
No
No
No
Yes
Yes
Yes
Upon Request
Yes
Yes
Yes
Yes
Yes (U12-PH or U12-NTH)
Yes
Yes
Yes
Upon Request
Yes
Yes
Yes
Yes
Yes (U12-PH or U12-NTH)
Upon Request
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes (U12-PH or U12-NTH)
Yes
Yes
Yes
Upon Request
Yes (U12-PH or U12-NTH)
Yes
Yes
Yes
Yes
Upon Request
Yes
Yes
Upon Request
No
No
Yes
Yes
No
Yes
Upon Request
Yes
Upon Request
No
No
Yes
Yes
No
Upon Request
Upon Request
Yes
Yes
No
No
Yes
Yes
No
Upon Request
Yes
Yes
Upon Request
No
No
No
Yes
Yes
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LabJack

Data Acquisition Applications

LabJack

Measuring Temperatures

Applications include thermocouples, resistance temperature detectors (RTDs), thermistors and silicon analog sensors.

A single LabJack can measure up to 84 analog temperature sensors and 20+ digital sensors.

Temperature Sensors (App Note)
LabJack

Testing Embedded Systems

LabJack data acquisition hardware can be used for countless applications including automated testing and validation of a wide array of electronic components and systems.

LabJack offers a good mix of I/O capability, software flexibility, and performance, all at a cost which makes it possible to instantiate several copies of the system without breaking the bank.

Read Case Study
LabJack

Reading Encoders

LabJack will read all major types of encoders including absolute, incremental and rotary. Our encoder app note features a general overview on different types of encoders, how to properly wire them to a LabJack, and different ways to read and record data from encoders.

DAQ with LabJack
LabJack

Controlling Motors

LabJack devices can be used to control various types of motors, including stepper motors and PID controllers. In addition, LabJack devices can output PWM signals for accurate duty cycle control, voltage regulation and motor speed control for maximum torque at low speeds.

Stepper Motor (App Note)
LabJack

Relay Control

Being able to control relays offers an easy way to add safety shut-offs in high voltage/power applications.

LabJack devices have 5 different relay control options:

One LabJack customer used a LabJack to help charge his Tesla with Bitcoin payments

Relay Control (App Note)
LabJack

Precision Weights & Measures

Strain guages, load cells and pressure sensors are all challenging to take quality measurements with.

Since raw bridge circuits produce very small voltages and are inherently differential, they will typically need to be amplified to get useful readings.

The LabJack U6 and T7 & T8 series of devices can acquire small differential bridge signals directly.

Bridge Circuits (App Note)
LabJack

Automotive Dynomometers

LabJack hardware is used by automotive engineers and technicians around the world to collect data and tune engine performance

Torque sensors combined with rotarty encoders can help calculate horsepower

DAQ Device FAQs

New to Data Acquisition (DAQ)? Not Sure Where to Start?

Our engineers in Colorado, USA, provide real-time live chat Monday-Friday between 9AM-11AM and 2PM-4PM Denver time. Click the chat bar at the bottom right of any page, or see our Contact page for other ways to get in touch with us.

Optional Accessories:

The CB15 is a simple screw terminal breakout for the DB15 connector.

The CB37 is a simple screw terminal breakout board for the DB37 connector. It only works with the U6 and T7 devices and can also be paired with the Mux80 for high channel application up to 84 AINs.

The Mux80 is an Analog Input Expansion board for the T7 and U6. Connected directly to the DB37 connector is can allow a single device to read up to 84 AINs.

 The RB12 Relay Board provides a convenient interface for the LabJack to industry standard relays to interface a LabJack with high voltages/currents. The RB12 relay board connects to the DB15 connector on the LabJack. Output or input 

The LJTick-Divider (LJTD) signal-conditioning module is designed to divide 2 single-ended higher voltage analog signals down to 0-2.5 volt signals.

The LJTick-DAC (LJTDAC) provides a pair of 14-bit analog outputs with a range of ±10 volts. Plugs into any digital I/O block, and thus up to 10 of these can be used per device to add 20 analog outputs.

The LJTick-InAmp (LJTIA) signal-conditioning module provides two instrumentation amplifiers ideal for low-level signals such as bridge circuits (e.g. strain gauges) and thermocouples. Each amplifier converts a differential input to single-ended.

The LJTick-RelayDriver (LJTRD) allows 2 digital I/O lines to each control a relay or other moderate load up to 50V/200mA.

The LJTick-CurrentShunt (LJTCS) signal-conditioning module is designed to convert a 4-20 mA current loop input signal into a 0.47-2.36 volt signal.

The LJTick-Proto (LJTP) consists of an 8x8 grid of holes for prototyping custom signal-conditioning modules.

Drawings, Dimensions, 3D Models, CAD Models

LabJack enclosure and OEM drawings and models are provided in several neutral file formats. Please see the links below to navigate to the correct LabJack.

DAQ Definition: What Is A DAQ System?

DAQ is short for data acquisition which is short for data acquisition and control.  The term describes the process of acquiring readings from sensors and transducers (temperature, pressure, strain, etc.), and controlling actuators (relays, solenoids, etc.).  In our case the emphasis is on computer-based DAQ, where the LabJack is the interface that allows a computer to read from sensors and control actuators.

 

What is an analog input? (AI, AIN, ADC)

AI or AIN = Analog Input
ADC = Analog to Digital Converter

An analog input converts a voltage level into a digital value that can be stored and processed in a computer. Why would you want to measure voltages? There are a multitude of sensors available which convert things like temperature, pressure, etc. into voltages.  The voltages can then be easily measured by various kinds of hardware, such as a LabJack U3-HV, and then read into a computer.  The computer can then convert the voltage value into it's original type (temperature, pressure, etc) and the value can then be stored in a file, emailed to someone, or used to control something else outside of the computer.

Example:

Example

Get temperature from a sensor using an analog input.

  1. Wire the output of the analog temperature sensor to a U3-HV as shown.
  2. Read the voltage on the computer to know the current temperature. 
  3. This particular sensor outputs 0.01 volts per °F, so 0.76V corresponds with 76°F.

Explore LabJack's Analog Input App Note