Inepro PRO380 energy meter

Register map(s) for this device, each at the trust rung it earned. Addresses are 0-based as on the wire; word order and scaling are only confirmed at the hardware-verified rung.

interop-verified

Read + decoded cleanly over a real network vs an independent third-party Modbus test server (transport and framing; reads are remapped into the server's register window, so the map's own addresses are NOT exercised). Does NOT prove word order/scaling against the actual device.

point	address (0-based)	type	scale	unit
voltage	20480	F32BE	1	V
l1_voltage	20482	F32BE	1	V
l2_voltage	20484	F32BE	1	V
l3_voltage	20486	F32BE	1	V
grid_frequency	20488	F32BE	1	Hz
current	20490	F32BE	1	A
l1_current	20492	F32BE	1	A
l2_current	20494	F32BE	1	A
l3_current	20496	F32BE	1	A
total_active_power	20498	F32BE	1	kW
l1_active_power	20500	F32BE	1	kW
l2_active_power	20502	F32BE	1	kW
l3_active_power	20504	F32BE	1	kW
total_reactive_power	20506	F32BE	1	kvar
l1_reactive_power	20508	F32BE	1	kvar
l2_reactive_power	20510	F32BE	1	kvar
l3_reactive_power	20512	F32BE	1	kvar
total_apparent_power	20514	F32BE	1	kVA
l1_apparent_power	20516	F32BE	1	kVA
l2_apparent_power	20518	F32BE	1	kVA
l3_apparent_power	20520	F32BE	1	kVA
power_factor	20522	F32BE	1
l1_power_factor	20524	F32BE	1
l2_power_factor	20526	F32BE	1
l3_power_factor	20528	F32BE	1
total_active_energy	24576	F32BE	1	kWh
t1_total_active_energy	24578	F32BE	1	kWh
t2_total_active_energy	24580	F32BE	1	kWh
l1_total_active_energy	24582	F32BE	1	kWh
l2_total_active_energy	24584	F32BE	1	kWh
l3_total_active_energy	24586	F32BE	1	kWh
forward_active_energy	24588	F32BE	1	kWh
t1_forward_active_energy	24590	F32BE	1	kWh
t2_forward_active_energy	24592	F32BE	1	kWh
l1_forward_active_energy	24594	F32BE	1	kWh
l2_forward_active_energy	24596	F32BE	1	kWh
l3_forward_active_energy	24598	F32BE	1	kWh
reverse_active_energy	24600	F32BE	1	kWh
t1_reverse_active_energy	24602	F32BE	1	kWh
t2_reverse_active_energy	24604	F32BE	1	kWh
l1_reverse_active_energy	24606	F32BE	1	kWh
l2_reverse_active_energy	24608	F32BE	1	kWh
l3_reverse_active_energy	24610	F32BE	1	kWh
total_reactive_energy	24612	F32BE	1	kvarh
t1_total_reactive_energy	24614	F32BE	1	kvarh
t2_total_reactive_energy	24616	F32BE	1	kvarh
l1_total_reactive_energy	24618	F32BE	1	kvarh
l2_total_reactive_energy	24620	F32BE	1	kvarh
l3_total_reactive_energy	24622	F32BE	1	kvarh
forward_reactive_energy	24624	F32BE	1	kvarh
t1_forward_reactive_energy	24626	F32BE	1	kvarh
t2_forward_reactive_energy	24628	F32BE	1	kvarh
l1_forward_reactive_energy	24630	F32BE	1	kvarh
l2_forward_reactive_energy	24632	F32BE	1	kvarh
l3_forward_reactive_energy	24634	F32BE	1	kvarh
reverse_reactive_energy	24636	F32BE	1	kvarh
t1_reverse_reactive_energy	24638	F32BE	1	kvarh
t2_reverse_reactive_energy	24640	F32BE	1	kvarh
l1_reverse_reactive_energy	24642	F32BE	1	kvarh
l2_reverse_reactive_energy	24644	F32BE	1	kvarh
l3_reverse_reactive_energy	24646	F32BE	1	kvarh
tariff	24648	I16	1
resettable_day_counter	24649	F32BE	1	kWh

link settings as documented (unverified): RTU; default 9600 8E1; unit ID 1; FC 03,06,16; The baud rate can be lowered to values 4800, 2400, 1200, 600 and 300. The parity can be set to none or odd. Data and stopbit cannot be changed.

bench facts as documented (unverified)

terminals	22 and 23
A/B polarity	B, A
termination	120 ohms/ 0,25 watts resistor across terminals 22 & 23
connector	terminals
shield/ground	COM*
wiring notes	Maximum bus load 60 meters per bus, Range 1000m
broadcast	supported
protocol notes	When connecting the meter through a serial converter (RS485) for testing, please be aware that because of not implementing the complete Modbus infrastructure, there will be a need to put an additional resistor (120 ohms/ 0,25 watts) across the terminals (22 & 23) on the meter side.
model register	4002
serial register	4000
firmware register	4007
identification notes	Protocol version is at 4005, Hardware version is at 4009
power	Nominal voltage 230/400V AC (3~), Operational voltage 3*230/400V ±20%, Internal power consumption ≤2W/Phase - ≤10VA/Phase
environment	Operating temperature range DC version -40°C - +70°C, CT version -25°C - +70°C, Operating humidity ≤ 75%, Storage humidity ≤ 95%, IP51
accuracy	Accuracy class B (=1% accuracy)
certifications	MID, EN50470-1/3, RoHS
doc revision	2.18-6

generated by gemini:gemini-3.5-flash · harvested from https://www.hw-group.com/files/pro380-user-manual-v2.18v6.pdf (Inepro Metering); manual-faithful — the document's claims, panel risk: ELEVATED — panel is not confident; proved interop-verified on 2026-06-11 · recorded 2026-06-11

The trust ladder

Each rung states what it proved and what it did not. Gray until proven; green is earned by hardware only.

generated — A prompt produced it. Unproven — anyone can regenerate this.
structure-verified — Decode path is structurally sound (addresses, widths, finite values). Does NOT prove word order or scaling.
interop-verified — Read + decoded cleanly over a real network vs an independent third-party Modbus test server (transport and framing; reads are remapped into the server's register window, so the map's own addresses are NOT exercised). Does NOT prove word order/scaling against the actual device.
simulator-verified — Decoded correctly against a protocol emulator seeded with known-true values — catches word-order/scaling errors vs the emulator, not the physical device.
hardware-verified x1 — Matched a real device with operator-attested readings as ground truth — the only rung that confirms word order + scaling on the wire.

Have a device that isn't here? Upload its register map — generation is free, and the connector earns its rung by being proven, not claimed.

Need it proven on your own device? Hardware verification — if it doesn't verify, you don't pay.

Building a platform? License the verified library — machine-readable maps, firmware matrix, API access.