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README.md
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![Logo](https://github.com/grindylow/ahoy/blob/main/doc/logo1_small.png?raw=true) ![Logo](https://github.com/grindylow/ahoy/blob/main/doc/logo1_small.png?raw=true)
# ahoy # ahoy
Various tools, examples, and documentation for communicating with Hoymiles microinverters Various tools, examples, and documentation for communicating with Hoymiles microinverters.
In particular:
* `doc\hoymiles-format-description.txt` is a detailed description of the communications format and the history of this project
* The `tools` folder contains various software tools for RaspberryPi and Arduino
Contributors are always welcome!

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doc/hoymiles-format-description.txt
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Ziel dieses Projekts Goal of this Document
==================== =====================
Anstelle der DTU wollen wir direkt von einem Arduino/RaspberryPi o.ä. This description aims to document the data format that Hoymiles
die aktuellen Betriebsdaten der Wechselrichter auslesen. micro inverters use to communicate their current operating state.
Ohne Umweg über die "Cloud". The original Hoymiles setup requires connectivity to "the cloud",
see [this chapter](#system-description).
With the information documented here, it is possible to interact with
a set of Hoymiles micro inverters in a purely "offline" way, i.e.
without requiring internet access or any connectivity to a "cloud".
The only required hardware is a Nordic "NRF24L01+" wireless module.
The `ahoy` project at [ahoy] collects software for various platforms,
including Aduino and RaspberryPi.
> Note: Some of the sections in this document are (still) in German. Translation
> will be provided if and when necessary.
Origin, Contributors
--------------------
The information in this document was gathered in a large community
effort which started out with [this post][1]
on the German [mikrocontroller.net][2] forum.
As of April 2022, this effort is still ongoing. Not all details have
been documented yet, and not all secrets have been uncovered.
Multiple members of the community have already successfully retrieved (and
continue to successfully retrieve) data from their Hoymiles micro inverters.
Here's a list of some of the early contributors:
- sorbit: created the original mikrocontroller.net thread
- Martin (Gast): DTU and RF analysis
- Hubi: protocol analysis
- Marcel: initial analysis and much logging and interpretation
- Pascal A. (pasarn): various datagram fields, crc8
- Frank H. (fh_): discovered time_t
- Thomas B. (tbnobody): protocol analysis, logging
- Arnaldo G. (arnaldo_g): data capturing
- Oliver F (of22): protocol analysis, logging
- Martin G. (petersilie): protocol analysis, logging
Systemaufbau System Description
============ ==================
Ein Setup wie von Hoymiles vorgesehen, sieht wie folgt aus:
- Eine "DTU" kommuniziert mit vielen Wechselrichtern. - Eine "DTU" kommuniziert mit vielen Wechselrichtern.
- Die Kommunikation geht immer von der DTU aus: - Die Kommunikation geht immer von der DTU aus:
DTU stellt Anfrage und erwartet eine Antwort vom WR. DTU stellt Anfrage und erwartet eine Antwort vom WR.
- Dafür muss die DTU die Adressen aller WR kennen. - Dafür muss die DTU die Adressen aller WR kennen.
```
Nordic Nordic
"Shockburst" "Enh. Shockburst"
2.4 GHz 2.4 GHz
\|/ <-----------------> \|/ \|/ <-----------------> \|/
| | | |
@ -32,11 +74,12 @@ Systemaufbau
: :
: :
ABBILDUNG 1: Systemübersicht ABBILDUNG 1: Systemübersicht
```
```
Nordic Nordic
WLAN "Shockburst" WLAN "Enh. Shockburst"
2.4 GHz 2.4 GHz
\|/ \|/ \|/ \|/
| | | |
@ -50,11 +93,12 @@ Systemaufbau
(B) +----------+ (C) (B) +----------+ (C)
ABBILDUNG 2: Innerer Aufbau "DTU" ABBILDUNG 2: Innerer Aufbau "DTU"
```
```
Nordic Nordic
"Shockburst" "Enh. Shockburst"
NRF24LE1E 2.4 GHz NRF24LE1E 2.4 GHz
+------------------+ \|/ +------------------+ \|/
+----------+ | | | | +----------+ | | | |
@ -63,6 +107,7 @@ Systemaufbau
+------+-----------+ +------+-----------+
ABBILDUNG 3: Detailansicht GD32F303 - NRF24LE1E ABBILDUNG 3: Detailansicht GD32F303 - NRF24LE1E
```
@ -72,7 +117,7 @@ Adressierung
Die Seriennummern der DTU und der WR werden wie folgt in Adressen für die Die Seriennummern der DTU und der WR werden wie folgt in Adressen für die
Kommunikation verwendet: Kommunikation verwendet:
Interne Kommunikation: Die meisten Datenpakete enthalten Quell- und **Interne Kommunikation**: Die meisten Datenpakete enthalten Quell- und
Zieladresse der jeweiligen Gesprächspartner. Hier werden 4-Byte-Adressen Zieladresse der jeweiligen Gesprächspartner. Hier werden 4-Byte-Adressen
verwendet, die direkt aus den letzten 8 Stellen der Seriennummer des verwendet, die direkt aus den letzten 8 Stellen der Seriennummer des
Wechselrichters bzw. der DTU gewonnen werden: Wechselrichters bzw. der DTU gewonnen werden:
@ -83,39 +128,95 @@ Innerhalb der Pakete auf (C) wird daraus die 4-Byte-Adresse
0x72, 0x81, 0x88, 0x32 gebildet. Das ist die BCD-Darstellung 0x72, 0x81, 0x88, 0x32 gebildet. Das ist die BCD-Darstellung
der letzen 8 Dezimalziffern. der letzen 8 Dezimalziffern.
NRF24-Kommunikation: Die zugehörige Shockburst Zieladresse ist **NRF24 addressing scheme**: Over the air, the inverters communicate using
ähnlich, aber die Byte-Reihenfolge wird umgedreht, und es wird ein 0x01-Byte the Nordic "Enhanced Shockburst" [3] Protocol configured for
am Ende ergänzt (Shockburst ist auf 5-Byte-Adressen eingestellt). 5-byte addresses.
Um eine Nachricht an das Gerät mit o.g. Seriennummer zu senden The inverter serial number is converted into a "Shockburst" address
lautet die Shockburst-Zieladresse also (0x32, 0x88, 0x81, 0x72, 0x01). as follows:
- encode the final 8 digits of the serial number in BCD format:
`0x72, 0x81, 0x88, 0x32`
- reverse the order of the bytes:
`0x32, 0x88, 0x81, 0x72`
- append a byte containing 0x01:
`0x32, 0x88, 0x81, 0x72, 0x01`
Additional example, this time for inverter with serial number 99973104619: In this example, the resulting "Shockburst" address is: 0x3288817201.
**Additional example**, this time for inverter with serial number 99973104619:
The datasheet specifies the over-the-air packet format: "Most Significant Byte The datasheet specifies the over-the-air packet format: "Most Significant Byte
(MSB) to the left" (cf figure 11) (MSB) to the left" (cf figure 11)
Address := Byte_4, Byte_3, Byte_2, Byte_1, Byte_0 ("LSByte must be unique") Address := Byte_4, Byte_3, Byte_2, Byte_1, Byte_0 ("LSByte must be unique")
so 0x1946107301 results in so 0x1946107301 results in
19 46 10 73 01 "on the wire" 19 46 10 73 01 "on the wire"
Old-style NRF Libraries take uint64_t addresses. In this case, the correct Old-style NRF Libraries take uint64_t addresses. In this case, the correct
address to pass to the library would be (uint64_t)0x1946107301ULL. address to pass to the library would be (uint64_t)0x1946107301ULL.
https://nrf24.github.io actually wants uint8_t*, which maybe makes more sense. The ["Optimized high speed nRF24L01+ driver"][4]
actually wants `uint8_t*`, which maybe makes more sense.
But apparently it still wants the bytes in order LSB to MSB (even though the chip will But apparently it still wants the bytes in order LSB to MSB (even though the chip will
then put them out in MSB-to-LSB order. then put them out in MSB-to-LSB order.
So in this case, So in this case, the correct sequence of bytes to pass to the library
the correct sequence of bytes to pass to the library would be \x01\x73\x10\x46\x19. would be "\x01\x73\x10\x46\x19".
Figure 4 below is an annotated example of an "Enhanced Shockburst" packet as
seen on the air.
```
+----------+--------------------+--------------------+---------------------+------------+
| preamble | dst 5-byte-address | PCF (9-bit) | payload (>=1 bytes) | 2-byte-CRC |
+----------+--------------------+--------------------+---------------------+------------+
| | | e.g. 0x0d8: | | |
| 0x55 | addr[4]...addr[0] | 0b011011 00 0 | | |
| or | MSB ... LSB | len=27 PID nACK | | |
| 0xAA | | | | |
| | | e.g. 0x0da | | |
| | | 0b011011 01 0 | | |
| | | len027 PID nACK | | |
+----------+--------------------+--------------------+---------------------+------------+
PCF: Packet control field
PID: Packet IDentification (to detect/avoid duplicates), cycles through 0...3
FIGURE 4: Enhanced Shockburst On-Air Data Format
```
Nachrichten Messages
=========== ========
Initial protocol analysis focused on the data exchanged on link (C) in figure (3).
Not all the frames observed on this link will result in an actual RF transmission,
and some translation/mangling/processing happens inside the NRF24LE1E, in particular
- replacement of serial numbers
- recalculation of CRCs
These packets (which are all framed in 0x7e...0x7f bytes) are described in section
"encapsulated packets" below.
More recent efforts focus mainly on the actual "Enhanced Shockburst" packets
that are transmitted over the air. These packets are described in section
"Enhanced Shockburst Payloads", and the information contained in this section is
more up to date.
Encapsulated Packets
--------------------
These are packets as observed on Link (C) in figure (3).
Nachricht: DTU an WR: "Init" (?) Nachricht: DTU an WR: "Init" (?)
---------------------------------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------------------------------
@ -250,14 +351,97 @@ Beispiel 72220200 72220200 ? 131
Hinweise Hinweise
======== --------
Die "on-air (payload)" Bytes geben nur die Nutzlast der gesendeten Shockburst-Pakete an. Die "on-air (payload)" Bytes geben nur die Nutzlast der gesendeten Shockburst-Pakete an.
Intern enthalten diese Pakete auch die Zieladresse, die Länge, eine CRC. Intern enthalten diese Pakete auch die Zieladresse, die Länge, eine CRC.
Legende
======= *****************************************************************************************************************************************************************************************
Enhanced Shockburst Payloads
----------------------------
- These are the packets that are exchanged between inverters and DTU via the Nordic
"Enhanced Shockburst" protocol.
- Each payload is preceded by a preamble, and terminated by a 16-bit CRC, as described
in the corresponding Nordic datasheet. See also figure 4 above.
```
CMD 0x80: DTU --> WR: "Set time/date" (?)
----------------------------------------------------------------------------------------------------------------------------------------------
|<-------------CRC16 'modbus' für CRC_M----------------->|
15 72220200 72220200 80 0B 00 62 09 04 9b 00 00 00 00 00 00 00 00 F2 68 F0
^^ ^^^^^^^^ ^^^^^^^^ ^^ ^^^^^ ^^^^^^^^^^^ ^^^^^ ^^^^^ ^^
Name MID DST_SER# SRC_SER# CMD uk1 TIME (local) SEQ? CRC_M CRC8
Units see "addressing" ? [s-since-epoch] HI LO
Example 72220200 72220200 ? 2022-02-13
13:16:11
```
- This message will cause the inverter to transmit a CMD=0x01, CMD=0x02, and, occasionally, also a CMD=0x83 message
to the DTU with serial number DST_SER#.
- Values of "0xb0, 0x00" and "0x11, 0x00" have been observed for "UK1". Their meaning is unknown.
- "SEQ" was observed to contain increasing numbers when sent by a Hoymiles DTU. In particular,
each issued "command" (e.g. "switch inverter on", "switch inverter off") appears to increase this
value. A constant value of 0x0000 or 0x0005 appears to work just fine.
```
CMD 0x01: WR --> DTU: "Current DC data" (?) (shown for an HM-700)
----------------------------------------------------------------------------------------------------------------------------------------------
95 72 22 02 00 72 22 02 00 01 00 01 01 4c 03 bd 0c 46 00 b5 00 03 00 05 00 00 BD 7F
^^ ^^^^^^^^^^^ ^^^^^^^^^^^ ^^ ^^^^^ ^^^^^ ^^^^^ ^^^^^ ^^^^^ ^^^^^ ^^ ^^
NameMID WR ser# WR ser# CMD ? PV1.u PV1.i PV1.p PV2.u PV2.i PV2.p ? CRC8 EOF
Units BCD (letzte 8) BCD (letzte 8) ? [0.1V] [0.01A] [.1W] [0.1V] [0.01A] [.1W] ?
Example 72220200 72220200 ? 33.2V 9.57A 317.2W 18.1V 0.03A 0.5W ?
```
- The exact meaning of the contents of this message varies depending on inverter type. So far, the following variants have been observed:
- HM-400 (single channel):
- HM-700 (2-channel):
- HM-1500 (4-channel):
73109025 73109025 01 00 01 014F 0003 000B 0000 40AE 03AC 08E6 7C
^^^^ ^^^^ ^^^^ ^^^^ ^^^^
335 3 11 940 2278
33.5V 0.03A 1.1W 940W 22.78kW
95 71603546 71603546 01 00 01 015D 004D 00B3 010C 0270 0001 3419 64 B327 B327 1
^^^^ ^^^^ ^^^^ ^^^^ ^^^^
349 77 179 1 13337
34.9V 0.77A 1.79W 1 133.37kW
```
Nachricht 0x02: WR an DTU: "Aktuelle AC Daten" (?)
----------------------------------------------------------------------------------------------------------------------------------------------
7E 95 72 22 02 00 72 22 02 00 02 28 23 00 00 24 44 00 3C 00 00 09 0F 13 88 0B D5 83 7F
^^ ^^ ^^^^^^^^^^^ ^^^^^^^^^^^ ^^ ^^^^^ ^^^^^ ^^^^^ ^^ ^^
Bedeutung SOF MID WR ser# WR ser# CMD ? ? ? AC.u AC.f AC.p CRC8 EOF
Einheit BCD (letzte 8) BCD (letzte 8) ? [0.1V] [0.01Hz] [0.1W]
Beispiel 72220200 72220200 ? 9284 60 231.9V 50.00Hz 302.9W
```
- The exact meaning of the contents of this message varies depending on inverter type. So far, the following variants have been observed:
- ...
```
Nachricht 0x83: WR an DTU (?): "???" (nach CMD wäre das eher auch eine Antwort vom WR?)
----------------------------------------------------------------------------------------------------------------------------------------------
7E 95 72 22 02 00 72 22 02 00 83 00 03 00 83 03 E8 00 B2 00 0A FD 26 1E 7F
^^ ^^ ^^^^^^^^^^^ ^^^^^^^^^^^ ^^ ^^ ^^
Bedeutung SOF MID WR ser# WR ser# CMD ? ? ? ? ? ? CRC8 EOF
Einheit BCD (letzte 8) BCD (letzte 8) ?
Beispiel 72220200 72220200 ? 131 1000 178 10
```
Legend
======
MID: Message-ID. Antworten haben Bit 7 gesetzt, MID: Message-ID. Antworten haben Bit 7 gesetzt,
z.B. Frage 0x15 --> Antwort 0x95. z.B. Frage 0x15 --> Antwort 0x95.
@ -300,7 +484,7 @@ TIME: Aktuelle (DTU-)Zeit als Unix "time_t" (Sekunden seit 1970-01-01)
Glossar Glossar
======= =======
WR: Wechselrichter WR: Wechselrichter (inverter)
DTU: Data Terminal Unit (?). Die Hoymiles-Bezeichnung für den Kommunikations-Master. DTU: Data Terminal Unit (?). Die Hoymiles-Bezeichnung für den Kommunikations-Master.
BCD: Binary Coded Decimal BCD: Binary Coded Decimal
@ -315,12 +499,21 @@ Notizen
datetime.datetime.utcfromtimestamp(0x6209049b): datetime.datetime(2022, 2, 13, 13, 16, 11) datetime.datetime.utcfromtimestamp(0x6209049b): datetime.datetime(2022, 2, 13, 13, 16, 11)
Historie References
======== ==========
- [1]: https://www.mikrocontroller.net/topic/525778 "The post that started the community effort"
- [2]: https://www.mikrocontroller.net "mikrocontroller.net"
- [3]: "Nordic NRF24LE01+ datasheet"
- [4]: https://nrf24.github.io/RF24 "Optimized high speed nRF24L01+ driver documentation"
Revision History
================
2022-03-09 / Petersilie / erste Version 2022-03-09 / Petersilie / erste Version
2022-03-10 / Petersilie / r2 / Nachrichten "02 28 23" und "82 00 03" ergänzt. Sauberer ausgerichtet. Python Beispiel für CRC. 2022-03-10 / Petersilie / r2 / Nachrichten "02 28 23" und "82 00 03" ergänzt. Sauberer ausgerichtet. Python Beispiel für CRC.
2022-03-12 / Petersilie / r3 / Erste on-air Formate hinzu. CMD-IDs hinzu. Neue Nachrichten von arnaldo_g hinzu. Übersicht hinzu. 2022-03-12 / Petersilie / r3 / Erste on-air Formate hinzu. CMD-IDs hinzu. Neue Nachrichten von arnaldo_g hinzu. Übersicht hinzu.
2022-03-15 / Petersilie / r4 / Nachricht 0x80: Mystery-Bytes am Ende "dechiffriert" 2022-03-15 / Petersilie / r4 / Nachricht 0x80: Mystery-Bytes am Ende "dechiffriert"
2022-03-16 / Petersilie / r5 / ESP ist ein ESP8266, nicht ESP32 (danke an @tbnobody) 2022-03-16 / Petersilie / r5 / ESP ist ein ESP8266, nicht ESP32 (danke an @tbnobody)
2022-03-27 / Petersilie / Versionierung ab jetzt via Github. 2022-03-27 / Petersilie / all future revisions are now versioned via Git.