Difference between revisions of "GPIO interfacing"

From Sensoray Technical Wiki
Jump to: navigation, search
(created stub)
 
 
(5 intermediate revisions by one user not shown)
Line 1: Line 1:
Sensoray offers a number of products that have general purpose digital I/O (GPIO) interfaces. When interfacing a GPIO to external circuitry it is important to follow some basic rules to ensure proper operation and avoid damage to the GPIO and external circuit:
+
Sensoray offers a number of products that have general purpose digital I/O (GPIO) interfaces. When interfacing a GPIO to external circuitry it is important to follow some basic design rules to ensure proper operation and avoid damage to the GPIO and external circuitry:
  
* '''Input range''' - When the GPIO is acting as an input or wired-OR, make sure the external signal source will never exceed the GPIO's input voltage range. In the case of TTL/CMOS compatible GPIOs (''e.g.'', models [[826]] and 2410), this range is typically 0 to +5 V. Some products support wider voltage ranges (''e.g.'', model 2610 voltage range is 0 to +24 V).
+
* '''Input range''' - When the GPIO is acting as an input or wired-OR, make sure the external signal source will never exceed the GPIO's input voltage range. In the case of TTL/CMOS compatible GPIOs (''e.g.'', models [[826]] and [[2410]]), the input range is typically 0 to +5 V. Some products support wider voltage ranges; for example, the [http://www.sensoray.com/products/2610.htm model 2610] input voltage range is 0 to +24 V.
  
* '''Common ground''' - If the GPIO is not isolated, the external circuit and GPIO interface must share a common power supply return. For example, in the case of a model 2410, the 2410's power supply return (''i.e.'', negative power supply input) must be connected to the external circuitry's power supply return.
+
* '''Common ground''' - If the GPIO is not isolated, the external circuit and GPIO interface must share a common power supply return. For example, in the case of a [[2410]], the 2410's power supply return (''i.e.'', negative power supply input) must be connected to the external circuitry's power supply return.
 +
 
 +
* '''Edge rate''' - Strive for fast signal edge rates when a GPIO is driven by an external signal source. Slow rise and fall times can cause sampling errors and, in extreme cases, damage GPIO line receivers.

Latest revision as of 10:35, 16 February 2017

Sensoray offers a number of products that have general purpose digital I/O (GPIO) interfaces. When interfacing a GPIO to external circuitry it is important to follow some basic design rules to ensure proper operation and avoid damage to the GPIO and external circuitry:

  • Input range - When the GPIO is acting as an input or wired-OR, make sure the external signal source will never exceed the GPIO's input voltage range. In the case of TTL/CMOS compatible GPIOs (e.g., models 826 and 2410), the input range is typically 0 to +5 V. Some products support wider voltage ranges; for example, the model 2610 input voltage range is 0 to +24 V.
  • Common ground - If the GPIO is not isolated, the external circuit and GPIO interface must share a common power supply return. For example, in the case of a 2410, the 2410's power supply return (i.e., negative power supply input) must be connected to the external circuitry's power supply return.
  • Edge rate - Strive for fast signal edge rates when a GPIO is driven by an external signal source. Slow rise and fall times can cause sampling errors and, in extreme cases, damage GPIO line receivers.
Personal tools
Namespaces

Variants
Actions
Toolbox