DGH D1500 Sensor to Computer Interface Bridge Input Module

  • DGH

Product Features

  • 8-bit ADC, 8 conversions per second
  • Accuracy: ±0.05% of FS maximum
  • Resolution: 10μV (mV spans) and 0.02% of FS (V spans)
  • Common mode rejection: 100dB at 50/60Hz
  • Excitation voltage: 5V, 8V or 10V dc @ 60mA maximum
  • Offset Control: Full input range
  • Input burnout protection to 30Vdc
  • Zero drift: +/-1μV/deg C maximum
  • Span temperature coefficient: ±50ppm/°C maximum
  • Temperature range of -25°C to +70°C

Applications

  • Non-compliant

The D1500 bridge input module is part of the DGH’s D1000 sensor to computer interface data acquisition module family. This input module converts the outputs from load cells, strain gauges or other bridge type sensor input signal to digital data, linearises and scales it in mV, and communicates the values using the ASCII protocol to give digital output. The D1500 bridge input module also contains a digital output (or LO alarm) which may be controlled by the host computer and used to control, for example, solid-state relays. For extra security, it utilises a non-volatile EEPROM (Electrically Erasable Programmable Read Only Memory) to store all user-selectable settings, meaning the values are maintained in the event of power loss. The D1500 comes pre-set with default values of 300 baud, one start bit, eight data bits, one stop bit, no parity and any address recognized, but these values can be easily changed by the user. The modules are designed to be compatible with all popular computers utilising RS-232C or RS-485 ports and no software is necessary to start using them, although the utility software is provided. The D1500 can be mounted on a DIN-rail if required (MK-1 mounting kit required) and can be combined with other D1000/D2000 modules to provide complete customised data acquisition system for given application.

  • Analog-to-digital bridge input module
  • Choice of RS-232 or RS-485 output
  • Choice of ranges: 30mV, 100mV or 1-6Vdc
  • Choice of excitation voltage: 5V(for bridges with input impedance ≥85Ω), 8V or 10Vdc (for bridges with input impedance ≥166Ω) @ 60mA maximum
  • Communicates using ASCII protocol
  • User-selectable features include baud rate, parity type and others
  • Accuracy: ±0.05% or full scale maximum
  • Resolution: 10μV for mV spans and 0.02% of full scale for V spans
  • Common mode rejection: 100dB at 50/60Hz
  • Input protection to 30Vdc
  • Span temperature coefficient: ±50ppm/°C maximum
  • Offset control: full input range
  • Zero drift: ±1μV/°C maximum
  • 1 Digital output (or LO alarm) as standard, this pin may be configured as digital input/events counter instead on request if preferred
  • Power requirements: Serial = 0.75W
  • Temperature range -25°C to +70°C

The applications for the D1500 data acquisition modules include:

  • Process monitoring and control
  • Remote data logging to any host computer
  • Product testing
  • Direct connection to modems

Clear
Quantity
Calculators and Convertors

Work out what you need for your project. Go to calculators and convertors

Contact us if you need your items quicker or need more than in stock.

Specifications

Weight 0.00000 kg
Dimensions 27.94 x 62.23 x 91.44mm
Excitation

, ,

Input

, ,

Input/Output

, ,

Number of Channels

Output

,

Power Requirements

Series / Model

,

DGH D1000 & D2000 Technical Library

We are pleased to provide you with a range of additional content including videos, product datasheets, case studies, white papers and application notes for your reference. Please see below for the latest content available:

 

 

DOCUMENTATION
DGH D1000 & D2000 Series Datasheet
DGH D1000 & D2000 Series User Manual
Command Set Protocol for D1000 Series
  • DGH

DGH D1500 Sensor to Computer Interface Bridge Input Module

Please be advised that due to the ongoing supply issues with raw materials affecting the global electronics industry, as well as an increase in orders received by our manufacturing partners, a large number of products are facing increased lead times in recent months. For the latest lead time and stock availability, please contact one of our engineers who will be happy to discuss lead times further and the potential for alternative parts.