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COMMS MANUAL

COOLMAX SR

Australian Energy Research Laboratories, Pty.Ltd

AER07.004 – Version G2 v9

January 2016

13 of 21

10094

STATUS – Safety

(Not Used)

Bit

0 or 1

Read−Only Reserved

10095

STATUS – Safety

(Not Used)

Bit

0 or 1

Read−Only Reserved

10096

STATUS – Safety

(Not Used)

Bit

0 or 1

Read−Only Reserved

3.7

MODBUS MEMORY MAP (INPUT REGISTERS)

16−Bit (Register)
Returns :

0 to 65535

(

unsigned short

data type)

0x0000 to 0xFFFF (i.e. 2 x 8 Bits)

Notes :

When a request is sent to read an input register, two bytes are returned for each register.
The result may be stored as an unsigned short data type.
Integers and Floating point values (32−bits) are stored over two registers.
Long values (64−bits) are stored over 4 registers.

Memory

Offset

Description

Register

Range

Data

Range

Read/Write

Comment

−

30000

−

30001

LIVE TELEMETRY

Product ID
(8 Characters)

16−Bits

0 to 65535

Read−Only

Product ID (Byte 1 − High)
Product ID (Byte 2 − Low)

30002

16−Bits

0 to 65535

Read−Only

Product ID (Byte 3 − High)
Product ID (Byte 4 − Low)

30003

16−Bits

0 to 65535

Read−Only

Product ID (Byte 5 − High)
Product ID (Byte 6 − Low)

30004

16−Bits

0 to 65535

Read−Only

Product ID (Byte 7 − High)
Product ID (Byte 8 − Low)

30005

LIVE TELEMETRY

Serial Number
(8 Characters)

16−Bits

0 to 65535

Read−Only

Serial # (Byte 1 − High)
Serial # (Byte 2 − Low)

30006

16−Bits

0 to 65535

Read−Only

Serial # (Byte 3 − High)
Serial # (Byte 4 − Low)

30007

16−Bits

0 to 65535

Read−Only

Serial # (Byte 5 − High)
Serial # (Byte 6 − Low)

30008

16−Bits

0 to 65535

Read−Only

Serial # (Byte 7 − High)
Serial # (Byte 8 − Low)

30009

LIVE TELEMETRY

PV Voltage (Volts)
(Float)

16−Bits

0 to 65535

Read−Only

PV Voltage (Byte 1 − High)
PV Voltage (Byte 2 − Low)

30010

16−Bits

0 to 65535

Read−Only

PV Voltage (Byte 3 − High)
PV Voltage (Byte 4 − Low)

30011

LIVE TELEMETRY

PV Current (Amps)
(Float)

16−Bits

0 to 65535

Read−Only

PV Current (Byte 1 − High)
PV Current (Byte 2 − Low)

30012

16−Bits

0 to 65535

Read−Only

PV Current (Byte 3 − High)
PV Current (Byte 4 − Low)

30013

LIVE TELEMETRY

Output Voltage (Volts)
(Float)

16−Bits

0 to 65535

Read−Only

Out Voltage (Byte 1 −
High)
Out Voltage (Byte 2 − Low)

30014

16−Bits

0 to 65535

Read−Only

Out Voltage (Byte 3 −
High)
Out Voltage (Byte 4 − Low)

30015

LIVE TELEMETRY

Output Current (Amps)
(Float)

16−Bits

0 to 65535

Read−Only

Out Current (Byte 1 −
High)
Out Current (Byte 2 − Low)

30016

16−Bits

0 to 65535

Read−Only Out Current (Byte 3 −

Содержание COOLMAX SR

Страница 1: ...aerl COMMS MANUAL COOLMAX SR Australian Energy Research Laboratories Pty Ltd AER07 004 Version G2 v9 13 th January 2016 COOLMAX SR MAXIMIZER WALLMOUNT Communications User Manual Models SRMVW SRHVW...

Страница 2: ...dbus Wiring 6 3 4 Shielding 7 3 5 Modbus Termination 7 3 6 Modbus Memory Map Discrete Inputs 7 4 Can Communications 16 4 1 CAN Network Topology 16 4 2 CAN Wiring 17 4 3 Shielding 18 4 4 CAN Terminatio...

Страница 3: ...ead before begin ning installation Only qualified electricians and technicians should install the COOLMAX SR System This manual is intended for all Installation technicians and the system owner Do not...

Страница 4: ...ng but not limited to condensation moisture damage and other forms of precipitation 6 The Product is not covered for damage occurring due to the Product being incorrectly installed or installed in a m...

Страница 5: ...Removal of the Access Panel Important All COOLMAX SR wiring must enter the unit via a 40mm conduit fitting at the bottom of the unit Drilling holes into the unit to make any other cable entry point w...

Страница 6: ...OPOLOGY Multiple COOLMAX SR units can exist on the same Modbus and this can be connected to other networks using a Modbus Ethernet Bridge adaptor The Modbus is structured as a linear network with shor...

Страница 7: ...e ideally with another twisted pair to minimise noise pickup An overall shield can also be advantageous Standard CAT5 network cabling which has an impedance of 100 can be used but may become unreliabl...

Страница 8: ...rminal block style termination can be made on the other end of the network However if a Modbus Ethernet Bridge adapter is present on the network it can be used to terminate the network by wiring a ter...

Страница 9: ...ature Sensor Fault Bit 0 or 1 Read Write 0 Event Cleared 1 Event Triggered 11 10012 ACTIVE EVENTS Negative PV Current Shutdown Bit 0 or 1 Read Write 0 Event Cleared 1 Event Triggered Memory Offset Inp...

Страница 10: ...ACTIVE EVENTS Not Used Bit 0 or 1 Read Write Reserved 26 10027 ACTIVE EVENTS Not Used Bit 0 or 1 Read Write Reserved 27 10028 ACTIVE EVENTS Not Used Bit 0 or 1 Read Write Reserved Memory Offset Input...

Страница 11: ...cs Not Used Bit 0 or 1 Read Only Reserved 43 10044 STATUS Statistics Not Used Bit 0 or 1 Read Only Reserved 44 10045 STATUS Statistics Not Used Bit 0 or 1 Read Only Reserved Memory Offset Input Addres...

Страница 12: ...0 or 1 Read Only Reserved 65 10066 STATUS Communications Not Used Bit 0 or 1 Read Only Reserved 66 10067 STATUS Communications Not Used Bit 0 or 1 Read Only Reserved 67 10068 STATUS Communications Not...

Страница 13: ...ontrol Mode Bit 0 or 1 Read Only 0 MPPT 1 Output Voltage 2 Input Voltage 3 Not Used 83 10084 84 10085 STATUS Control Not Used Bit 0 or 1 Read Only Reserved Memory Offset Input Address Description Inpu...

Страница 14: ...t ID Byte 5 High Product ID Byte 6 Low 3 30004 16 Bits 0 to 65535 Read Only Product ID Byte 7 High Product ID Byte 8 Low 4 30005 LIVE TELEMETRY Serial Number 8 Characters 16 Bits 0 to 65535 Read Only...

Страница 15: ...High Out Current Byte 4 Low 24 30025 LIVE TELEMETRY Active Events Uint32 16 Bits 0 to 65535 Read Only Active Events Byte 1 High Active Events Byte 2 Low 25 30026 16 Bits 0 to 65535 Read Only Active Ev...

Страница 16: ...Low 50 30051 SYSTEM INFO Product ID 8 Characters 16 Bits 0 to 65535 Read Only Product ID Byte 1 High Product ID Byte 2 Low 51 30052 16 Bits 0 to 65535 Read Only Product ID Byte 3 High Product ID Byte...

Страница 17: ...ed as a linear network with short stubs branching from T connectors on the main bus backbone to each device The CAN bus data lines must be terminated at each end of the main bus with 120 resistors bet...

Страница 18: ...AWG data 22 AWG power twisted pairs and a braided shield Using this cable will result in a robust installation Standard CAT5 network cabling which has an impedance of 100 can be used but may become u...

Страница 19: ...CAN GND J3 3 SHIELD YES J3 4 CAN H Digital IO CAN signals J3 5 CAN L J3 6 NC Table 1 Signal PIN Assignment 4 3 SHIELDING Correct shielding practice is important for error free communications Incorrect...

Страница 20: ...EE single precision 32 bit format IEEE 754 with most significant byte MSB sent first Bit Length 1 11 6 8 Bytes 16 2 7 Start Identifier Control Data Field CRC Ack End Figure 2 CAN Data Frame 3 7 3 Iden...

Страница 21: ...surement ID COOLMAX SR Base Address 1 Variable Bits Type Description PV Current 63 32 float PV Current PV Voltage 31 0 float PV Voltage 3 8 3 Output Voltage Current Measurement ID COOLMAX SR Base Addr...

Страница 22: ...Boolean High battery temp fault Bat current 5 Boolean High battery discharge current fault Iout fault 4 Boolean High output current fault Vout high fault 3 Boolean High output voltage fault Not used 2...

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