# Pony-Card-WRS4i2o
Pony-Card-WRS4i2o is a Wiegand/RS485 capable card for access controle powered by PoE
# Main feature
- Powered by PoE or 12V/2A input
- Power sercurity device like badge reader in 12V/0.5A
- Wiegand or RS485 input selectable by switch
- In Wiegand mode, 1 digital output (e.g for drive 5V Led or buzzer from badge reader)
- 4 digital input (3V to 24V)
- Drive 2 output NO/NC relay (230V/5A Max)
- Can run on WiFi and/or Ethernet (e.g for failover)
- Ready to Home assistant with EspHOME (Sample config avaliable)
- Ready to MQTT with Tasmota (Base firmware avaliable)
- -20C° +60C° running continous capability
- Fit in DIN PLC Box like [this](https://fr.aliexpress.com/i/1005004933689728.html)
- Dimention : 92.4mm X 87.5
# Esp32 Pin Mapping
- GPIO 0 : Flash write mode Conected to CH340
- GPIO 1 : UART_TX Conected to CH340
- GPIO 2 : Free use in pin header
- GPIO 3 : UART_RX Conected to CH340
- GPIO 4 : Free use in pin header
- GPIO 5 : Free use in pin header
- GPIO 6 - 11 : Reserved by flash memory
- GPIO 12 : Ethernet PHY Power
- GPIO 13 : Wiegand D0 or RS485 RX
- GPIO 14 : Wiegand D1 or RS485 TX
- GPIO 15 : RS485 DIR or digital out in Wiegand mode (e.g for drive status LED on badge reader)
- GPIO 16 : Free use in pin header
- GPIO 17 : EMAC Clock out 180
- GPIO 18 : MDIO(RMII)
- GPIO 19 : EMAC TXD0(RMII)
- GPIO 21 : EMAC TX Enable
- GPIO 22 : EMAC TXD1(RMII)
- GPIO 23 : MDC(RMII)
- GPIO 25 : EMAC RXD0(RMII)
- GPIO 26 : EMAC RXD1(RMII)
- GPIO 27 : EMAC RX CRS DV
- GPIO 32 : Relay 1
- GPIO 33 : Relay 2
- GPIO 34 : Digital Input 1 (3V - 24V)
- GPIO 35 : Digital Input 2 (3V - 24V)
- GPIO 36 : Digital Input 3 (3V - 24V)
- GPIO 39 : Digital Input 4 (3V - 24V)
# Wiegand ESPHome example
```
esphome:
name: Pony Card WRS4i2o
friendly_name: Pony_Card_WRS4i2o
esp32:
board: esp32dev
framework:
type: arduino
# Enable logging
logger:
# Enable Home Assistant API
api:
encryption:
key:
ota:
password:
ethernet:
type: LAN8720
mdc_pin: GPIO23
mdio_pin: GPIO18
clk_mode: GPIO17_OUT
power_pin: GPIO12
globals:
- id: autorized_badge
type: int64_t
restore_value: no
initial_value: '5562314525698'
wiegand:
- id: badgereader
d0: GPIO13
d1: GPIO14
on_raw:
- if:
condition:
labda : 'return value == id(autorized_badge);
then:
- switch.toggle: r1
else:
- switch.toggle: r2
- delay : 1s
- switch.toggle: r2
binary_sensor:
- platform: gpio
pin:
number: 34
inverted: true
name: "input1"
- platform: gpio
pin:
number: 35
inverted: true
name: "input2"
- platform: gpio
pin:
number: 36
inverted: true
name: "input3"
- platform: gpio
pin:
number: 39
inverted: true
name: "input4"
output:
- platform: gpio
pin: 32
id: 'Relay_1'
- platform: gpio
pin: 33
id: 'Relay_2'
switch:
- platform: output
name: "Relay 1"
id: "r1"
output: 'Relay_1'
- platform: output
name: "Relay 2"
id: "r2"
output: 'Relay_2'
- platform: gpio
name: "LED"
id: "led"
pin:
number: 15
inverted: true
```
# Misc
R49 was unpopulated resistance, because it's just for very old PoE device, support only type 1 PoE and this type need permanante 10mA current drain. But this produce 0.5w of heat and in certain condition make overhead the board, please populate only if your PoE injector dont work without an be careful of probaly over heating in +50C° environement.