RevPi DI

Product Description

The RevPi DI is an expansion module of the Revolution Pi family with 16 digital inputs.

Components

Position	Component	Application
1	X2 connector	Connecting the Power Supply
2	2 × status LED	LEDs
3	16 × digital input	Pinout, Digital Inputs
4	X4 connector	Connecting the Power Supply
5	Locking clamps	Mounting the Device on a DIN Rail
6	Ventilation Slots	Mounting the Device on a DIN Rail
7	2 × PiBridge	Connecting Expansion Modules

Pinout

The RevPi DI has 16 GPIO interfaces as inputs.

Pins 1 to 16 on the connector are assigned as follows:

Pins 17 to 28 are not assigned and cannot be used.

For the configuration, see Configuring RevPi DI in the PiCtory Value Editor.

LEDs

The LEDs indicate different device statuses.

Power

Signal	Function
Green	The connection to the RevPi base module is established.
Flashes red	The connection to the RevPi base module is being established (initialization phase).
Red	The connection to the RevPi base module is interrupted.

IN

Signal	Function
Off	The connection to the RevPi base module is not yet established (initialization phase).
Green	Inputs are ready for operation.
Flashes red	Error at the inputs.
Red	No or too low supply voltage.

Compatible Base Modules

• RevPi Connect 5
• RevPi Connect 4
• RevPi Connect SE (left side only)
• RevPi Connect+ (left side only)
• RevPi Connect S (left side only)
• RevPi Core (all variants)

See Rules for the Arrangement of Devices.

Scope of Delivery

The scope of delivery includes

• RevPi expansion module
• PiBridge connector
• X2 connector
• X4 connector
• 2 × 14-pin I/O module
• 2 × cover plug for PiBridge

Mounting and Connecting

The RevPi was developed for use in a control cabinet. Observe the specifications for the Intended Use and all Safety Instructions.

warning

Danger to life due to electric shock

There is a risk of fatal electric shock when working on devices in the switch cabinet with 230 V mains voltage.

▷ Work in the switch cabinet may only be carried out by qualified electricians.

▷ Before carrying out any work in the switch cabinet, switch off the power supply properly.

Carry out the mounting and connection in the following order:

1. Mount the RevPi base module and all expansion modules on a DIN rail.

2. Connect the expansion module via the PiBridge connector.

3. Connect all other devices such as sensors and actuators.

4. As last step connect the power supply for the RevPi DI and for the digital inputs.

Connecting the Power Supply

Power supply Connection RevPi DI

The power supply of the RevPi DI expansion module requires cabling via the X4 connector, see Connecting the Power Supply.

This power supply can be provided via the X4 connector of the RevPi base module from the same power source. The RevPi DI requires 1.5 W.

Power Supply Connection Inputs via X2

NOTICE

Damage to the device due to different grounding

▷ Refer all connections to the same system ground.

▷ Connect external voltage inputs or outputs with different grounding externally.

The connected devices can be supplied with 12 ... 24 V directly via the RevPi DI. A maximum of 12 W additional power may be used per connection. This power supply requires cabling via the X2 connector:

Pin	Function
1	24 V supply for the inputs
2	Ground for the inputs
3	–
4	–

Configuration

The RevPi expansion modules are configured via the System Configuration with PiCtory.

Configuring RevPi DI in PiCtory

The RevPi DI has 16 inputs for reading in signals. These can be configured in PiCtory’s Value Editor.

Mind the Pinout. Pinout

▷ Start PiCtory.

▷ Insert the RevPi DI from the Device Catalog > I/O Devices into the correct slot in the Revolution Pi system on the Configuration Board.

▷ If necessary, adjust the basic configuration of the RevPi DI under Device Data.

▷ Configure the settings In the Value Editor (see below).

▷ Save the configuration via File > Save as Start-Config..

▷ Restart the driver via Tools > Reset Driver.

INP Input Values

Field	Offset	Description
I_1 … 16	Offset: 0	Shows the current values of the inputs 1 ... 16 (bits 0 ... 15). With data schema 18, all values are displayed in a 16-bit value Input.
Status	Offset: 4	Displays the status of the extension module: Bit 0: No communication to the input IC Bit 1: Undervoltage UV1 <7 V input 1 … 8 Bit 2: Undervoltage UV2 <14 V input 1 … 8 Bit 3: Overtemperature >135 °C input 1 … 8 Bit 4: Undervoltage UV1 <7 V input 9 … 16 Bit 5: Undervoltage UV2 <14 V input 9 … 16 Bit 6: Overtemperature >135 °C input 9 … 16 Bit 7: Error message input module
Counter_1 … 15	Offset: 6	Optionally, configure the inputs as encoders and activate counter function.

MEM Memory Values

Parameter	Offset	Description
InputMode_1 … 16	Offset: 88	Select the mode for each input. Direct: Current value at the input is displayed. Counter, rising edge: Rising edges are counted at the input. Counter, falling edge: Falling edges are counted at the input. Encoder: Use inputs as encounters.
InputDebounce	Offset: 104	Set the debounce filter time for all inputs.

Configuring Counter

Optionally set a counter function for each input, e.g. how often a button has been pressed. A 32-bit value is entered in the process image for each counter. The current counter value is returned as signed 32-bit value.

Configuring Encounter

Two inputs together can be configured as encoders (rotary encoders), e.g. to control parts of quantities in combination with the PWM function. A maximum of five encoders per RevPi DI can be used.

The inputs must always be used in pairs, starting with an odd-numbered input, e.g. input 1 and 2 or input 3 and 4.

▷ Set the value to Encounter under MEM InputMode . The subsequent input is thus automatically also configured as an Encounter.

❯❯ The current encoder value is returned as signed 32-bit value in the first input.