Expand your Revolution Pi system by adding digital I/O expansion modules
To transform Revolution Pi into an industrial control unit, various digital I/O modules can be connected to the base module RevPi Core. The I/O modules come in three versions.
All have the same 28-pin I/O connector at the front (connector with two rows of 14 pins each – two suitable 14-pin socket connectors with spring clamp contacts for the connection of up to 1.5 mm² stranded hookup wires are supplied). Apart from the standard version with 14 digital inputs and 14 digital outputs, there are also two special versions that exclusively have either 16 digital inputs or 16 digital outputs.
All versions have a galvanic separation between the PiBridge logic circuit and inputs resp. outputs (600 VRMS isolation voltage). The RevPi DIO version has additionally galvanic separation between inputs and outputs. All versions are protected against interference according to EN 61131-2 requirements and may be operated between -40 °C to 55 °C ambient temperature with up to 93 % rel. humidity. Furthermore, all digital I/O modules have UL certification (UL-File-No. E494534).
The DC inputs have a voltage threshold which for 24 V supply voltage is compliant to EN 61131-2 Type 1 and Type 3 input definitions. Input current is clamped at a maximum of 2.4 mA. This norm is not defined for 12 V inputs therefore we cannot test for any compliance. But thresholds are reasonably reduced with supply voltage. If the voltage supply drops under 9 V, an alarm is sent to RevPi Core/Connect. This can be used as an indication of unreliable input values that are no longer compliant with the norm for a 24 V digital input.
There is adjustable low-pass filtering to prevent input signal bouncing. This filter can only be applied to all inputs or none. The filter only propagates input values that are stable for at least 25 µs, 750 µs, or 3 ms (value is part of configuration). All inputs are protected against ESD, bursts, and surges according to demands of EN 61131-2.
Each output can be configured separately as a high side switch with max. 500 mA current load or push-pull output with a maximum load of 100 mA. Independently from their output mode every single channel is protected against over current and is short circuit safe. A hardware watchdog circuit is monitoring the SPI data exchange between MPU and output circuit. If there is no SPI traffic, outputs are forced to 0 (safe state). Outputs are also forced to their safe state if the output power supply drops low or the output circuit reached an over-temperature condition. Such error conditions as well as the short circuit state of each channel is cyclically transmitted to RevPi Core.
Each output can additionally be configured to detect open load conditions when in high side switch mode and send an alarm to RevPi Core. Just like the inputs all outputs are protected against ESD, bursts, and surges according to demands of EN 61131-2.
The switching status of inputs and outputs are cyclically exchanged via PiBridge with the RevPi Core’s central processing image using the PiControl driver. Additionally, to switching status, the possible error conditions (diagnostic data) and configuration data are also cyclically transmitted.
During startup, a module detection identifies all modules and their physical position left or right of RevPi Core. After this detection phase, the modules get their non-cyclic configuration data. Then the system changes into the process data transfer phase in which the RS485 channel of PiBridge and a time-optimised protocol is used for data exchange.
The I/O module RevPi DIO is also equipped with PWM (pulse width modulation) and counter inputs. PWM functionality can be activated separately for each of the 14 outputs. That means, that instead of transferring just 1 bit per channel, a complete byte value containing the pulse-width from 0 to 100 (percentage value) is transferred. Although our output driver ICs are able to handle high-frequency PWM, RevPi DIO is limited to low frequencies because PWM is realized by using software switching. One of the following PWM-frequencies can be chosen by configuration (find the corresponding resolution of smallest percentage steps in brackets): 40 Hz (1 %), 80 Hz (2 %), 160 Hz (4 %), 200 Hz(5 %) and 400 Hz (10 %).
Counter functionality can be activated for each of the 14 input channels. This results in a 32-bit count value per counter which is accessible in the central process image.
As a result of the galvanic separation of the PiBridge logic circuit, it needs its own power supply connector which is also providing a mandatory functional earth connection (4 pin connector with screw terminals). This power supply section works with 11.4 V up to 28.8 V input voltage and draws a maximum of 50 mA current (at 24 V – 100 mA at 12 V) used for an STM32F205 MPU. This MPU is controlling the data exchange over the PiBridge and exchanges data with input and output lines using galvanic separated SPI lines. This power supply circuit does bypass a loss of power at its input of up to 77 ms at 24 V.
For a perfect galvanic separation, the input and output circuits should get their own supply voltages using an additional 4 pin connector with screw terminals. These input and output power supplies should refer to them according to the GND level of sensors (contacts, switches, etc.) and actuators (relays, etc.). Their voltage has to be between 11.4 V and 28.8 V. Inputs only have norm compliant thresholds for 24 V supply voltage. Current consumption for input supply is about 10 mA maximum. For the outputs, the power consumption depends heavily on connected loads which can be up to 500 mA per channel (which adds up to a maximum of 8 A current consumption for the DO version).
All power supply inputs are protected against reverse polarity, overvoltages, and transient voltage or current interference according to requirements of EN 61131-2.
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