Open Collector Digital Output Guide: Difference between revisions
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==Ground Protection== | ==Ground Protection== |
Revision as of 17:46, 29 October 2021
Introduction
An Open Collector Digital Output behaves similarly to a Solid State Relay, by toggling the state of the output, you can switch a circuit on and off. This type of output does not supply power to the load like an ordinary digital output, it simply switches a powered circuit to ground.
How it Works
The digital outputs require an external voltage source to supply power, and act as a switch to ground. The outputs are designed to operate with DC voltage only; check the specification table for your Phidget to determine the maximum voltage it can handle. This type of switching output is often referred to as a low-side switch. It is common to use the digital outputs with electrical devices such as motors, lamps, relays, and solenoids.
When using ground terminals, it is recommended that the ground terminal located nearest the output terminal be used. If highly inductive loads are used with the Digital Outputs, the use of a clamping diode is recommended to reduce noise.
Basic Use
Connect your circuit in series with the digital output, as pictured. The load could be a larger relay, a solenoid, LEDs, light bulbs, motors, etc. Check the specification table on the product page for your Phidget to ensure that the voltage required by your load does not exceed the maximum.
Ground Protection
Ground terminals on some relay boards share a common ground with USB ground. Because they are not internally isolated, these terminals will expose the USB ground potential of the PC to which they are connected. Be sure you are completely familiar with any circuit you intend to connect to a relay board before it is connected. If a reverse voltage or dangerously high potential is applied to the input or output terminals, damage to the Phidget or the computer may result. Limit input and output voltages to the maximum specified on your Phidget's specification table, and always observe correct polarity.