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Modbus Controller Select
========================
.. seo ::
:description: Instructions for setting up Modbus Controller Select(s) with ESPHome.
The `` modbus_controller `` Select platform allows you to create a Select from modbus
registers.
.. code-block :: yaml
# Example configuration entry
select:
- platform: modbus_controller
name: "Modbus Select Register 1000"
address: 1000
value_type: U_WORD
optionsmap:
"Zero": 0
"One": 1
"Two": 2
"Three": 3
Configuration variables:
------------------------
- **name** (**Required** , string): The name of the Select.
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- **address** (**Required** , int): The start address of the first or only register
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of the Select.
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- **optionsmap** (**Required** , Map[str, int]): Provide a mapping from options (str) of
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this Select to values (int) of the modbus register and vice versa. All options and
all values have to be unique.
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- **value_type** (*Optional* ): The datatype of the modbus data. Defaults to `` U_WORD `` .
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- `` U_WORD `` (unsigned 16 bit integer from 1 register = 16bit)
- `` S_WORD `` (signed 16 bit integer from 1 register = 16bit)
- `` U_DWORD `` (unsigned 32 bit integer from 2 registers = 32bit)
- `` S_DWORD `` (signed 32 bit integer from 2 registers = 32bit)
- `` U_DWORD_R `` (unsigned 32 bit integer from 2 registers low word first)
- `` S_DWORD_R `` (signed 32 bit integer from 2 registers low word first)
- `` U_QWORD `` (unsigned 64 bit integer from 4 registers = 64bit)
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- `` S_QWORD `` (signed 64 bit integer from 4 registers = 64bit)
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- `` U_QWORD_R `` (unsigned 64 bit integer from 4 registers low word first)
- `` U_QWORD_R `` (signed 64 bit integer from 4 registers low word first)
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- **register_count** (*Optional* ): The number of registers which are used for this Select. Only
required for uncommon response encodings or to
:ref: `optimize modbus communications<modbus_register_count>` . Overrides the defaults determined
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by `` value_type `` .
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- **skip_updates** (*Optional* , int): By default all sensors of a modbus_controller are
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updated together. For data points that don't change very frequently updates can be skipped. A
value of 5 would only update this sensor range in every 5th update cycle. Defaults to `` 0 `` .
Note: The modbus_controller merges several registers into groups which are updated together. For
each group the smallest update cycle is used.
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- **force_new_range** (*Optional* , boolean): If possible sensors with sequential addresses are
grouped together and requested in one range. Setting this to `` true `` enforces the start of a new
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range at that address.
- **id** (*Optional* , :ref: `config-id` ): Manually specify the ID used for code generation.
- **lambda** (*Optional* , :ref: `lambda <config-lambda>` ): Lambda to be evaluated every update interval
to get the current option of the select.
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Parameters passed into lambda
- **x** (`` int64_t `` ): The parsed integer value of the modbus data.
- **data** (`` const std::vector<uint8_t>& `` ): vector containing the complete raw modbus response bytes for this
sensor. Note: because the response contains data for all registers in the same range you have to
use `` data[item->offset] `` to get the first response byte for your sensor.
- **item** (`` ModbusSelect*const `` ): The sensor object itself.
Possible return values for the lambda:
- `` return <std::string>; `` The new option for this Select.
- `` return {}; `` Use default mapping (see `` optionsmap `` ).
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- **write_lambda** (*Optional* , :ref: `lambda <config-lambda>` ): Lambda to be evaluated on every update
of the Sensor, before the new value is written to the modbus registers.
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- **use_write_multiple** (*Optional* , boolean): By default the modbus command `` Preset Single Registers ``
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(function code 6) is used for setting the holding register if only 1 register is set. If your device only supports *Preset Multiple Registers* (function code 16) set this option to `` true `` . Defaults
to `` false `` .
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- **optimistic** (*Optional* , boolean): Whether to operate in optimistic mode - when in this mode,
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any command sent to the Modbus Select will immediately update the reported state. Defaults
to `` false `` .
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- All other options from :ref: `Select <config-select>` .
.. code-block :: yaml
# example
lambda: |-
ESP_LOGD("Reg1000", "Received value %lld", x);
ESP_LOGD("Reg1000", "Parsed from bytes 0x%x;0x%x", data[item->offset], data[item->offset + 1]);
if (x > 3) {
return std::string("Three");
}
Parameters passed into `` write_lambda ``
---------------------------------------
- **x** (`` const std::string& `` ): The option value to set for this Select.
- **value** (`` int64_t `` ): The mapping value of `` x `` using `` optionsmap `` .
- **payload** (`` std::vector<uint16_t>& payload `` ): Empty vector for the payload. The lamdba can add
16 bit raw modbus register words which are send to the modbus device.
- **item** (`` ModbusSelect*const `` ): The sensor object itself.
Possible return values for the lambda:
- `` return <int64_t>; `` the value which should be written to the configured modbus registers. If there were data written to `` payload `` this value is ignored.
- `` return {}; `` Skip updating the register.
.. code-block :: yaml
# example
write_lambda: |-
ESP_LOGD("Reg1000", "Set option to %s (%lld)", x.c_str(), value);
// re-use default option value from optionsmap
if (value == 0) {
return value;
}
// return own option value
if (x == "One") {
return 2;
}
// write payload
if (x == "Two") {
payload.push_back(0x0001);
return 0; // any value will do
}
// ignore update
return {};
See Also
--------
- :doc: `/components/modbus_controller`
- :doc: `/components/sensor/modbus_controller`
- :doc: `/components/binary_sensor/modbus_controller`
- :doc: `/components/switch/modbus_controller`
- :doc: `/components/text_sensor/modbus_controller`
- :doc: `/components/output/modbus_controller`
- :ref: `automation`
- https://www.modbustools.com/modbus.html
- :ghedit: `Edit`