==== Eastron Modbus maps ==== {{ :de:hw:eastron_sdm630.png?200|Eastron SDM630}} RS485-Kommunikationsschnittstelle, MODBUS-RTU-Protokoll: * Baudrate: 9600 Baud (default, can set) * Parity: Even * Databits: 8 * Stopbits: 1 * Default slave ID: 1 (SMD72D), 45 (SDM72CTM) * Number of Drivers and Receivers: 32 Drivers, 32 Receivers (without repeater) * Maximum Cable Length: 1200 m * Maximum Data Rate: 10 Mbaud * Maximum Common Mode Voltage: 12 V .. –7 V * Minimum Driver Output Levels (Loaded): +/– 1.5 V * Minimum Driver Output Levels (Unloaded): +/– 6 V * Drive Load: Minimum 60 ohms * Driver Output Short Circuit Current Limit: 150 mA to Gnd, 250 mA to 12 V, 250 mA to -7 V * Minimum Receiver Input Resistance: 12 kohms * Receiver Sensitivity: +/- 200 mV === 32 bit (2 words) input registers === The registers are read-only. ^Register Nr^32 bit address^Description^Unit| |30001|1|Phase 1 line to neutral volts|Volts| |30003|2|Phase 2 line to neutral volts|Volts| |30005|3|Phase 3 line to neutral volts|Volts| |30007|4|Phase 1 current|Amps| |30009|5|Phase 2 current|Amps| |30011|6|Phase 3 current|Amps| |30013|7|Phase 1 power|Watts| |30015|8|Phase 2 power|Watts| |30017|9|Phase 3 power|Watts| |30019|10|Phase 1 volt amps|VA| |30021|11|Phase 2 volt amps|VA| |30023|12|Phase 3 volt amps|VA| |30025|13|Phase 1 volt amps reactive|VAr| |30027|14|Phase 2 volt amps reactive|VAr| |30029|15|Phase 3 volt amps reactive|VAr| |30031|16|Phase 1 power factor (1)|VAr| |30033|17|Phase 2 power factor (1)|VAr| |30035|18|Phase 3 power factor (1)|VAr| |30037|19|Phase 1 phase angle|Degrees| |30039|20|Phase 2 phase angle|Degrees| |30041|21|Phase 3 phase angle|Degrees| |30043|22|Average line to neutral volts|Volts| |30047|24|Average line current|Amps| |30049|25|Sum of line currents|Amps| |30053|27|Total system power|Watts| |30057|29|Total system volt amps|VA| |30061|31|Total system VAr|VAr| |30063|32|Total system power factor (1)|-| |30067|34|Total system phase angle|Degrees| |30071|36|Frequency of supply voltages|Hz| |30073|37|Total Import kWh|kWh| |30075|38|Total Export kWh|kWh| |30077|39|Total Import kVArh|kVArh| |30079|40|Total Export kVArh|kVArh| |30081|41|Total VAh|kVAh| |30083|42|Ah|Ah| |30085|43|Total system power demand (2)|W| |30087|44|Maximum total system power demand (2)|VA| |30101|51|Total system VA demand|VA| |30103|52|Maximum total system VA demand|VA| |30105|53|Neutral current demand|Amps| |30107|54|Maximum neutral current demand|Amps| |30201|101|Line 1 to Line 2 volts|Volts| |30203|102|Line 2 to Line 3 volts|Volts| |30205|103|Line 3 to Line 1 volts|Volts| |30207|104|Average line to line volts|Volts| |30225|113|Neutral current|Amps| |30235|118|Phase 1 L/N volts THD|%| |30237|119|Phase 2 L/N volts THD|%| |30239|120|Phase 3 L/N volts THD|%| |30241|121|Phase 1 Current THD|%| |30243|122|Phase 2 Current THD|%| |30245|123|Phase 3 Current THD|%| |30249|125|Average line to neutral volts THD|%| |30251|126|Average line current THD|%| |30255|128|Total system power factor (5)|Degrees| |30259|130|Phase 1 current demand|Amps| |30261|131|Phase 2 current demand|Amps| |30263|132|Phase 3 current demand|Amps| |30265|133|Maximum phase 1 current demand|Amps| |30267|134|Maximum phase 2 current demand|Amps| |30269|135|Maximum phase 3 current demand|Amps| |30335|168|Line 1 to line 2 volts THD|%| |30337|169|Line 2 to line 3 volts THD|%| |30339|170|Line 3 to line 1 volts THD|%| |30341|171|Average line to line volts THD|%| |30343|172|Total kwh|kwh| |30345|173|Total kvarh|kvarh| |30347|174|L1 import kwh|kwh| |30349|175|L2 import kwh|kwh| |30351|176|L3 import kwh|kwh| |30353|177|L1 export kwh|kwh| |30355|178|L2 export kwh|kwh| |30357|179|L3 export kwh|kwh| |30359|180|L1 total kwh|kwh| |30361|181|L2 total kwh|kwh| |30363|182|L3 total kwh|kwh| |30365|183|L1 import kvarh|kvarh| |30367|184|L2 import kvarh|kvarh| |30369|185|L3 import kvarh|kvarh| |30371|186|L1 export kvarh|kvarh| |30373|187|L2 export kvarh|kvarh| |30375|188|L3 export kvarh|kvarh| |30377|189|L1 total kvarh|kvarh| |30379|190|L2 total kvarh|kvarh| |30381|191|L3 total kvarh|kvarh| === 32 bit (2 words) holding registers === The registers are read / write. ^Register Nr^32 bit address^Description^Note| ^Address register^Parameter number^Parameter^Valid range^type^mode| |40003|2|Demand period|Write demand period: 0, 5,8, 10, 15, 20, 30 or 60 minutes, default 60. Setting the period to 0 will cause the demand to show the current parameter value, and demand max to show the maximum parameter value since last demand reset.|Length : 4 byte, Data Format : Float|rw| |40011|6|System type|Write system type: 3p4w = 3, 3p3w = 2 & 1p2w= 1 Requires password, see parameter 13|Length : 4 byte, Data Format : Float|rw| |40013|7|Pulse 1 width|Write pulse1 on period in milliseconds: 60, 100 or 200, default 100.|Length : 4 byte, Data Format : Float|r| |40015|8|Password lock|Write any value to password lock protected registers. Read password lock status: 0 = locked. 1 = unlocked. Reading will also reset the password timeout back to one minute.|Length : 4 byte, Data Format : Float|r| |40019|10|Network Parity Stop|Write the network port parity/stop bits for MODBUS Protocol, where: 0 = One stop bit and no parity, default. 1 = One stop bit and even parity. 2 = One stop bit and odd parity.3 = Two stop bits and no parity.Requires a restart to become effective.|Length : 4 byte, Data Format : Float|rw| |40021|11|Network Node|Write the network port node address: 1 to 247 for MODBUS Protocol, default 1. Requires a restart to become effective.|Length : 4 byte, Data Format : Float|rw| |40023|12|Pulse1 Divisor1|Write pulse divisor index: n = 0 to 5 \\ 0: 0.0025 kWh(kVArh)/imp \\ 1: 0.01 kWh(kVArh)/imp \\ 2: 0.1 kWh(kVArh)/imp \\ 3: 1 kWh(kVArh)/imp \\ 4: 10 kWh(kVArh)/imp \\ 5: 100 kWh(kVArh)/imp|Length : 4 byte, Data Format : Float|rw| |40025|13|Password|Write password for access to protected registers. Default: 0000|Length : 4 byte, Data Format : Float|rw| |40029|15|Network Baud Rate|Write the network port baud rate for MODBUS Protocol, where: \\ 0: 2400 baud \\ 1: 4800 baud \\ 2: 9600 baud, default \\ 3: 19200 baud \\ 4: 38400 baud \\ Requires a restart to become effective|Length : 4 byte, Data Format : Float|rw| |40087|44|Pulse 1 Energy Type|Write MODBUS Protocol input parameter for pulse output 1: \\ 1: import active energy \\ 2: total active energy \\ 4: export active energy, default \\ 5: import reactive energy \\ 6: total reactive energy \\ 8: export reactive energy|Length : 4 byte, Data Format : Float|rw| |461457|30729|reset|00 00 :reset the Maximum demand|Length : 2 byte, Data Format : Hex|w| === readable blocks in Modbus === ^Nr. of block^Start address^number of registers| |1|3000|100| |2|3100|8| |3|3200|70| |4|3300|82| |5|4000|100| 3000: input registers, 4000: holding registers