ESPHome-Devices

Vivitar HA-1007-AU Power Strip

Vivitar HA-1007-AU Power Strip

Device Type: plug
Electrical Standard: au

The Vivitar HA-1007-AU Power Strip has four individually switched AC outlets (each has a status LED that do not seem to be individually controllable. There are also four USB power/charge ports, all switchable but not individually. There is a button and blue and red controllable leds.

GPIO Pinout

PinFunction
GPIO0Blue LED (Inverted: true)
GPIO01Push Button (Inverted: true)
GPIO02None
GPIO03Red LED (Inverted: true)
GPIO04Relay1 - Socket A (Inverted: true)
GPIO05Led2i - Master (Inverted: true)
GPIO09None
GPIO10None
GPIO12Relay3 - Socket C (Inverted: true)
GPIO13Relay2 - Socket B (Inverted: true)
GPIO14Relay4 - Socket D (Inverted: true)
GPIO15None
GPIO16Relay5 - USB

Getting up and running

The device can be flashed using tuya-convert.

Code

This yaml is borrowed from the author of the Arlec PB89HA Power Board page. The multi click stuff for the button is optional, but can be useful if you are at the powerboard.

The blue led is used as a status led and flashes as the wifi is connecting.

The red led is used as an indication that the master switch is on (none of the sockets actually get any power if this is off)

If the "master" switch is off, it will turn off all the other switches so there's no confusion from the state of the LED's per individiual socket

Turning on any individual socket should also turn on the master automatically

substitutions:
hostname: vivitar_ha1007au_power_strip
display_name: Vivitar Power Strip
# Icon
main_icon: "power-socket-au"
# Default Relay State
# Aka: `restore_mode` in documentation
# Options: `RESTORE_DEFAULT_OFF`, `RESTORE_DEFAULT_ON`, `ALWAYS_ON` & `ALWAYS_OFF`
default_state: "RESTORE_DEFAULT_OFF"
esphome:
name: $hostname
platform: ESP8266
board: esp01_1m
wifi:
ssid: "****"
password: "****"
domain: "****"
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "${display_name} Fallback Hotspot"
password: "****"
captive_portal:
# Enable logging
logger:
# Enable Home Assistant API
api:
password: "****"
ota:
password: "****"
sensor:
- platform: wifi_signal
name: "${display_name} WiFi Signal"
update_interval: 5min
- platform: uptime
id: uptime_sec
name: "${display_name} Uptime"
update_interval: 5min
switch:
- platform: gpio
pin:
number: GPIO04
inverted: yes
name: "Power Board - Socket A"
id: relay_a
restore_mode: "${default_state}"
icon: "mdi:${main_icon}"
on_turn_on:
- switch.turn_on: relay_m
- platform: gpio
pin:
number: GPIO13
inverted: yes
name: "Power Board - Socket B"
id: relay_b
restore_mode: "${default_state}"
icon: "mdi:${main_icon}"
on_turn_on:
- switch.turn_on: relay_m
- platform: gpio
pin:
number: GPIO12
inverted: yes
name: "Power Board - Socket C"
id: relay_c
restore_mode: "${default_state}"
icon: "mdi:${main_icon}"
on_turn_on:
- switch.turn_on: relay_m
- platform: gpio
pin:
number: GPIO14
inverted: yes
name: "Power Board - Socket D"
id: relay_d
restore_mode: "${default_state}"
icon: "mdi:${main_icon}"
on_turn_on:
- switch.turn_on: relay_m
- platform: gpio
pin:
number: GPIO16
inverted: no
name: "Power Board - USB"
id: relay_u
restore_mode: "${default_state}"
icon: mdi:usb
- platform: gpio
pin:
number: GPIO5
inverted: yes
name: "Power Board - Master"
id: relay_m
restore_mode: "${default_state}"
icon: "mdi:power"
on_turn_on:
- light.turn_on:
id: power_led
brightness: 100%
transition_length: 0s
on_turn_off:
- light.turn_off:
id: power_led
transition_length: 0s
- switch.turn_off: relay_a
- switch.turn_off: relay_b
- switch.turn_off: relay_c
- switch.turn_off: relay_d
status_led:
pin:
number: GPIO0
inverted: True
binary_sensor:
- platform: gpio
pin:
number: GPIO1
inverted: True
name: "Power Board Button"
internal: true
on_multi_click:
- timing:
- ON for at most 0.5s
- OFF for at least 0.5s
then:
lambda: |-
if (! id(relay_a).state ) {
id(relay_a).turn_on();
} else if ( ! id(relay_b).state ) {
id(relay_b).turn_on();
} else if ( ! id(relay_c).state ) {
id(relay_c).turn_on();
} else if ( ! id(relay_d).state ) {
id(relay_d).turn_on();
} else {
id(relay_a).turn_off();
id(relay_b).turn_off();
id(relay_c).turn_off();
id(relay_d).turn_off();
};
- timing:
- ON for at most 0.5s
- OFF for at most 0.5s
- ON for at most 0.5s
- OFF for at least 0.2s
then:
lambda: |-
if ( id(relay_a).state ) {
id(relay_a).turn_off();
} else if ( id(relay_b).state ) {
id(relay_b).turn_off();
} else if ( id(relay_c).state ) {
id(relay_c).turn_off();
} else if ( id(relay_d).state ) {
id(relay_d).turn_off();
} else {
id(relay_a).turn_on();
id(relay_b).turn_on();
id(relay_c).turn_on();
id(relay_d).turn_on();
};
- timing:
- ON for at least 0.5s
- OFF for at least 0.2s
then:
lambda: |-
if (id(relay_a).state ||
id(relay_b).state ||
id(relay_c).state ||
id(relay_d).state ) {
id(relay_a).turn_off();
id(relay_b).turn_off();
id(relay_c).turn_off();
id(relay_d).turn_off();
} else {
id(relay_a).turn_on();
id(relay_b).turn_on();
id(relay_c).turn_on();
id(relay_d).turn_on();
};
light:
- platform: binary
name: "Power Board Red LED"
output: state_led
id: power_led
output:
- platform: gpio
pin:
number: GPIO3
inverted: yes
id: state_led
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