aerl SRX-R 600/60-48 CoolMax SRX-R Charge Controller Instruction Manual
- October 30, 2023
- aerl
Table of Contents
- aerl SRX-R 600/60-48 CoolMax SRX-R Charge Controller
- Important Safety Information
- Warranty Conditions
- Specifications
- Introduction
- Installation
- Backplane Terminations
- Operation
- Device Status Indicator
- Battery Charge Profile
- Ground Fault Detection
- Communications Protocols
- Troubleshooting – Error Codes
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
aerl SRX-R 600/60-48 CoolMax SRX-R Charge Controller
CoolMax SRX-R Charge Controller
The CoolMax SRX-R Charge Controller is a specialized power electronic controller designed for use in solar applications. It is manufactured by Australian Energy Research Laboratories (AERL),which was founded in 1985 by Stuart Watkinson to commercialize the Power Optimizer. The Power Optimizer eventually came to be known as the AERL MAXIMIZERTM, the world’s first truly Universal Maximum Power Point Tracker (MPPT). Today, AERL manufactures a range of highly reliable and efficient specialized power electronic controllers for use in Solar, Micro Hydro, Micro Wind, and Cathodic Protection applications.
Specifications
The CoolMax SRX-R Charge Controller comes in two models:
- SRX-R 600/60-48
For detailed specifications, refer to the user manual.
Installation
Before installing the CoolMax SRX-R Charge Controller, ensure that wire and
disconnect sizing are appropriate. Refer to the user manual for instructions
on wire and disconnect sizing.
CoolMax SRX-R 600/60-48
The CoolMax SRX-R 600/60-48 charge controller is designed for use in solar
applications. For installation and operation instructions, refer to the user
manual.
Backplane Terminations
The backplane terminations of the CoolMax SRX-R Charge Controller are designed
to make installation easy and efficient.
Refer to the user manual for instructions on backplane terminations.
Operation
Refer to the user manual for instructions on operating the CoolMax SRX-R
Charge Controller safely and efficiently.
Important Safety Information
The user manual contains important safety information and installation
instructions for the CoolMax SRX-R Charge Controller.
The following symbols are used throughout the manual to indicate ideal
installation methods, potentially dangerous conditions, and important
operational information. It is important to read and follow all safety
instructions carefully to ensure safe and efficient operation of the charge
controller.
About AERL
Australian Energy Research Laboratories (AERL) was founded by Stuart Watkinson
(BE Elec. Eng., Grad. M.I.E.A) in 1985 to commercialize the “Power Optimizer”,
a revolutionary solution to a complex problem, developed while studying at the
University of Queensland in Brisbane, Australia.
Unlike many inventors, Stuart possessed not only a great idea but also the
entrepreneurial skill to turn it into a commercially viable product. The
“Power Optimizer” would eventually come to be known as the AERL MAXIMIZER™,
the world’s first truly Universal Maximum Power Point Tracker (MPPT).
Today, AERL manufactures a range of highly reliable and efficient specialized
power electronic controllers for use in Solar, Micro Hydro, Micro Wind, and
Cathodic Protection applications.
Contact Information
Address: 2/75 Bluestone Circuit,
Seventeen Mile Rocks, 4073,
Queensland, Australia
Phone: +61 1800 950 865
Email: sales@aerl.com.au
Website: https://www.aerl.com.au
Disclaimer
UNLESS SPECIFICALLY AGREED TO IN WRITING, AUSTRALIAN ENERGY RESEARCH LABORATORIES:
(a) MAKES NO WARRANTY AS TO THE ACCURACY, SUFFICIENCY OR SUITABILITY OF ANY
TECHNICAL OR OTHER INFORMATION PROVIDED IN ITS MANUALS OR OTHER DOCUMENTATION.
(b) ASSUMES NO RESPONSIBILITY OR LIABILITY FOR LOSS OR DAMAGE, WHETHER DIRECT,
INDIRECT, CONSEQUENTIAL, OR INCIDENTAL, WHICH MIGHT ARISE OUT OF THE USE OF
SUCH INFORMATION.
THE USE OF ANY SUCH INFORMATION WILL BE ENTIRELY AT THE USER’S RISK.
Notice of Copyright
CoolMax SRX-R Charge Controller User Manual © 2023 by AERL Pty. Ltd. All
Rights Reserved.
Trademark
AERL and the AERL Logo are trademarks owned by AERL Holdings Pty. Ltd. and
used by AERL Pty. Ltd under license.
These trademarks may be registered in Australia and other countries.
Effective Date
May 2023 (5/2023)
Important Safety Information
This Installation Manual contains important safety information and
installation instructions for the AERL COOLMAX SRX-R MPPT Solar Charge
Controller.
The following symbols are used throughout this user manual to indicate ideal
installation methods, potentially dangerous conditions, and important
operational information.
IMPORTANT
Indicates information that must be followed to ensure proper operation of the
COOLMAX SRX-R.
CAUTION
Indicates a critical procedure for the safe installation of the COOLMAX SRX-R.
Use extreme caution when performing this task.
About this Manual
IMPORTANT
- This User Manual provides detailed installation and usage instructions for the COOLMAX SRX-R unit. It is recommended that all the Instructions and Cautions in this User Manual be read before beginning installation.
- Only qualified electricians and technicians should install the COOLMAX SRX-R. This manual is intended for all installation technicians and the system owner.
- Do not disassemble or attempt to repair the COOLMAX SRX-R unless you are a qualified technician and have authority in writing from AERL to do so.
- AERL will not be held responsible in any way for the mishandling of this product or for installation of the product in a manner that does not follow the instructions in this manual or as advised by an AERL technician.
Warranty Conditions
1 Warranty Duration from the Date of Purchase
Warranty Requirements Total Warranty Duration
You are the original purchaser of the CoolMax SRX-R. 5 Years
Our goods come with guarantees that cannot be excluded under the Australian
Consumer Law. You are entitled to a replacement or refund for a major failure
and compensation for any other reasonably foreseeable loss or damage. You are
also entitled to have the goods repaired or replaced if the goods fail to be
of acceptable quality and the failure does not amount to a major failure.
AERL will bear the cost of parts and labour to repair any manufacturing faults
found within the terms and period of this warranty and pay the cost of freight
to return the repaired CoolMax SRX-R controller within Australia/New Zealand
but the method of freight will be determined by AERL.
An allowance is made for the labour required to disconnect or reinstall faulty
parts up to the value of $220 AUD excluding GST.
All installation and user conditions as set down in the instruction manual
must be strictly adhered to as failure to do so may void your warranty. Any
faults or like faults caused by lightning, water or moisture ingress, vermin
infestation, improper voltage, faulty installation, use of the product in a
manner for which it is not intended, alterations which affect the reliability
or performance of the unit but are not attributable to faulty manufacture, or
damage caused by other system components will not be covered under warranty.
In the event of the product being out of service, AERL shall bear no
responsibility for any consequential loss or expense. AERL will not be held
responsible for any misleading or incorrect information conveyed by anyone not
directly employed by AERL.
For claims under warranty, the faulty product(s) must be returned to AERL’s
facility at 2/75 Bluestone Circuit, Seventeen Mile Rocks, 4073, QLD, Australia
after contacting AERL and receiving the appropriate RMA documentation from
AERL.
Note: Warranty conditions remain current until the next revision of this document is published. Proof of purchase is required when making a warranty claim.
Specifications
General Specifications
Parameter| Typical
Weight| 6.2 kg
Dimensions (H x W x D)| 432 x 192 x 78 mm
Enclosure Type| Indoor Type 1 / IP20
Input / Output Power Connectors| Backplane Connector
Characteristics| SRX 600/60-48
---|---
Nominal Battery Voltage / Vdc Range| 48 V / 20 – 60
Max Charge Current| 60A
Nominal Charge Power| 3456 W @ 48 V
Max PV Input Power| Nominal Charge Power x 1.33
Max PV Input Voltage (Voc)| 600 V
MPP Voltage Range (Vmp)| 170 – 500 V
Min PV Operating Voltage| 100 V
Max PV Input Current (Imp)| 14 A
Max PV Short Circuit Current (Isc)| 20 A
Device Startup Voltage| 60 V
Total Backfeed Current (Ibf Total)| 0 A
Overload Behaviour| Power Limitation
PV Reverse Polarity Protection| Yes
Earth Leakage Current Detection| Yes
Overvoltage Category| DC II
Overvoltage Protection| DC Type II
Safety Protection Class| I
Pollution Degree (Int & Ext)| II
Max Altitude Rating| 2000m
Max Conversion Efficiency| 96%
Ambient Operating Temperate Range
( Maximum Charge Current derates by up to 10% Per
° C above 80% Ambient ° C)
| ****
-20 to +50 °C
Storage Temperature| -30 to +70 °C
Self-Consumption @ Idle| 3.5 W
Allowable Relative Humidity| 4 – 95% (non-Condensing)
Cooling Method| Active (User Serviceable)
Required Cabinet Air Exchange Rate (Intake @ 40 ° C)| 25 m3/hour
Communications| RS485 / CAN Bus
Certifications
| IEC62109-1:2010 EN61000.6.3:2012
EN61000.6.4:2012
Introduction
Thank-you for purchasing an Australian made CoolMax SRX-R Series Charge
Controller.
CoolMax Charge Controllers offer an efficient and reliable charging process
that not only maintains battery efficiency and life but maximizes power
generation by utilizing the full potential of your PV array.
Features
CoolMax Charge Controllers utilize an advanced form of Maximum Power Point
Tracking (MPPT) technology to extract the maximum power available from your PV
array, efficiently charging your batteries and maximizing power generation.
AERL’s Maximum Power Point Tracking (MPPT) algorithm has been proven to be highly robust, resistant to local extremes, and results in power losses of less than 0.5% over the whole operating temperature range of a PV Array.
- High Input Voltage for Ease of Install
- On-Board Ground Fault Detection
- PV Array Oversizing Support (+50%)
- Superior Peak Power Efficiency
- Built-In Overload and Thermal Protection
- Reverse Polarity and Current Protection
- Designed for Long Term Reliability
- Australian Made
Firmware
This user manual covers CoolMax SRX-R Control Firmware Revisions v1.7 and
above.
Installation
IMPORTANT
The SOLA R DC ISOLATOR/BREAKER at the input side must be in the OFF position
before connecting or disconnecting the MPPT Charge Controller.
CAUTION – Equipment Damage
CoolMax Charge Controllers are not designed to be used in parallel with other
Third-Party Charge Controllers and this will void your warranty.
Standards & Requirements
All installations must comply with national and local electrical standards and
codes of practice, and the CoolMax SRX-R must be installed in a clean, dry
location away from direct sunlight. AERL always recommends professional
installation. No on-going maintenance is required.
Grounding
CoolMax Charge Controllers are designed to be installed in floating systems
but contain provisions for positive functional earthing for telecom
applications if required.
CAUTION – Hazard
DO NOT FUNCTIONALLY EARTH THE ARRAY if a negative earth is used for the
batteries, load, or DC system.
IMPORTANT
The Chassis Ground (located inside the enclosure) is marked with the following
symbol:
CAUTION – Hazard
If damaged or malfunctioning, the AERL controller should only be disassembled
and repaired by a qualified service centre. Please contact your local
authorized distributor for assistance.
Incorrect reassembly risks malfunction, electric shock, or fire.
Mounting the Shelf
The SRX-R shelf must be mounted horizontally in a suitably ventilated lockable
cabinet ensuring the backplane area is restricted to licensed electricians and
qualified technicians.
Wiring Information
This section will provide information and instructions for safely wiring up
the DC connections on the CoolMax SRX-R.
Wire and Disconnect Sizing
IMPORTANT
- Wire sizes must comply with local and national standards. Input conductors and circuit breakers must be rated at 1.56 times the short-circuit current of the PV array.
- Copper wiring must be rated at 75°C or higher.
Use a minimum of #6 AWG (16 mm2) wire for the output between the backplane and
the battery bus bar or termination and use an appropriately sized insulated
crimp ferrule when terminating both the input and output connections.
Torque all CoolMax wire and ground terminals to 1.7 Nm (15 in-lb).
CoolMax SRX-R 600/60-48
- The output current limit of the CoolMax SRX-R 600/60-48 is 60 amps.
- Use an 80A+ Non-Polarized DC Circuit Breaker between the controller output and load.
- Recommended Option: Beny BDH-125 125A 1000V Circuit Breaker or Equivalent
Please refer to the relevant IEC or AS/NZS electrical code for recommendations on PV array cable sizing, length, and ampacity.
All devices connected to the controller must have suitable insulation in accordance with the relevant product standards.
Backplane Terminations
CAUTION – Equipment Damage
Reversing the polarity of the output may damage the CoolMax SRX-R and void
product warranty.
Confirm polarity with a multi-meter prior to closing the input and output
Operation
Start-Up & Shutdown Procedure
The CoolMax SRX-R will start-up when a voltage above 60Vdc is applied to the
PV Input – The device will not power up from the Battery terminal.
To start the device, connect the Battery first, and then turn the PV
Isolator/Breaker on. The LED will flash blue for approximately 60 seconds, and
then begin to charge – USB setup will be required on first start-up.
To shut down the device, turn the PV Isolator off, wait for the LED to turn
off, and then disconnect the battery breaker to isolate the controller.
CAUTION – Equipment Damage
Do not remove an SRX-R MPPT from the backplane while charging – Turn off the
PV isolator first to prevent equipment damage.
Programming the Device
When the CoolMax SRX-R is first powered on, the device will run a self-test
and then the LED indication strip will flash yellow to indicate no charge
profile has been configured.
The CoolMax SRX-R is programmed via the USB-B port located on the backplane
board as demonstrated in Figure 4 to the right.
Note – The USB Selection Switch must be toggled between MPPT 1 and MPPT 2.
The AERL Link Software for Windows 10/11 can be downloaded at the URL below.
Figure 3: USB-B Programming Port and Toggle Switch
Instructions for setting the charge profile located on Page 16.
Device Status Indicator
Battery Charge Profile
IMPORTANT
The CoolMax SRX-R default charge profile is intended for a generic LiFePo4
battery solution.
AERL supports most other battery chemistries that do not require external BMS
communications.
AERL is working with various battery manufacturers to expand out-of-the-box
comms support for Lithium batteries that require communication with the Charge
Controller.
Please contact AERL support to confirm compatibility prior to installation.
Additional battery support will be rolled out via Over-The-Air firmware
updates.
The CoolMax SRX-R charge output will not automatically activate for safety
reasons. Prior to activating the charge output, the charge profile must be
configured for the relevant battery solution being utilized.
The SRX-R operates using an advanced three-stage charging process and has pre-
set charge voltage profiles for each supported nominal battery voltage. That
said, AERL always recommends referring to the battery manufacturers
specifications regarding charge voltages for optimal battery life and
performance.
These voltages can be adjusted in the charge profile settings. Refer to Page
16 for instructions.
Charge Profile Configuration
The CoolMax SRX-R allows for extensive flexibility when it comes to charge
profile parameters to suit numerous different modern battery chemistries and
manufacturers requirements.
Our programmable charge profile allows for the configuration of the Battery
Charge Rate, and the Absorb, Float, Re-Bulk, and Equalization voltage points.
IMPORTANT
An Equalization is only normally required for Flooded Lead-Acid cells that
experience sulfation because of poor charging practices over the lifetime of
said cell.
Equalization is not required, nor recommended for LiFePo4 or other lithium-
based battery solutions and will likely cause damage unless otherwise advised
by the battery manufacturer.
The default charge profile is suitable for most applications but to determine the optimal charge profile for your application, please refer to your battery manufacturer’s user manual or datasheet.
The CoolMax SRX-R Default Charge Profiles are as follows:
SRX-R 600/60-48 | |
---|---|
Nominal Battery voltage | 48 V |
Max Charge current | 60 A |
Absorption voltage | 57.6 V |
Absorption time | 2 Hours |
Float Voltage | 55.2 V |
Re-Bulk Voltage | 52 V |
Setting the Battery Charge Profile with AERL Link
Connect to the USB-B Port on the backplane, ensuring the USB Change-Over
Switch (refer to Figure 2 on Page 11) is set to the device you wish to
program. Within a few seconds, the device will appear in the available local
devices list in AERL Link.
Click on the Device, select the Settings button on the device page to access the battery charging settings. Charge settings are changed by clicking on the setting value and using the plus/minus arrows or the keyboard to enter a new value.
Once the required settings have been set, slide the charger-enabled toggle to the right, and apply the changes to the CoolMax SRX-R by clicking on the Apply button to begin charging.
Ground Fault Detection
The CoolMax SRX-R features industry-first onboard PV and Battery system ground
fault detection, with all connected electrical poles checked for insulation
degradation during the device’s start-up routine.
The device chassis must be connected to the same earth as the PV array for the
ground fault detection to function. The chassis earth point is located inside
the access cover and indicated with the symbol demonstrated below.
IMPORTANT
The system earth configuration (Ground Fault Mode) must be adjusted in the
AERL Link software for use with functionally earthed systems otherwise an
earth fault will be detected on the earthed pole.
Ground Fault Sensitivity
The SRX-R ground fault detection offers three levels of sensitivity, all of which are compliant with the Australian PV installation standards.
Low
|
100kΩ
---|---
Medium
|
50kΩ
High
|
30kΩ
The sensitivity of the ground fault detection can be configured in AERL Link as demonstrated in Figure 11 below.
Communications Protocols
The CoolMax SRX-R features both Controller Area Network (CAN bus) and ModBus
RTU (RS485) compatible protocols for remote monitoring and control
functionality. The relevant protocol registry maps for integration are
available from AERL on request.
Both networking protocols can be accessed via the RJ45 connectors located
inside the access cover.
The pin-outs for these connections are demonstrated in Figure 12 below.
Pin | Comms Connector |
---|---|
4 | CAN High |
7 | CAN Low |
5 | RS485 A |
6 | RS485 B |
8 | GND |
Figure 12: Comms Connector Pin-Outs
Troubleshooting – Error Codes
If the CoolMax SRX-R detects an issue, a warning, or fault code will be
triggered.
Please refer to the table below for Warning Codes and the tables located on
Page 25 & 26 for Fault Codes.
Warning Code| LED Code| Warning| Description|
Recommended Action
---|---|---|---|---
-26
|
Flashing Yellow/Green
|
Device Not Configured
| The initial setup process has not been completed and the device will not
begin charging.
| Connect and configure the device with the AERL Link Software.
Refer to Page 14.
-1303
|
Solid Yellow/Green
|
Charger Disabled
| The charger has been disabled via the Settings in AERL Link.| Connect to the device and enable the charger to begin charging.
-1153
|
Solid Blue
|
Low Input Voltage Detected
(Sleep Mode)
|
The PV Voltage is below the minimum allowed PV Voltage or not adequate to charge the connected battery.
|
Confirm PV String Configuration is appropriate for the device and the sun is shining.
Note – This code may be shown during sunrise and sunset conditions.
-1304
|
N/A
|
Battery Sense Not Detected
| The remote voltage and temperature sensor is either unplugged or faulty.|
Refer to Battery Sense User Manual for troubleshooting.
-1301
|
Flashing Yellow/Green
|
CAN Master Lost
| The device has not received information from the Master within the allowed
time-out window.
| Confirm your RJ45 connection has not been interrupted and the Master device is still
active.
-1160
|
Flashing Yellow/Green
|
Configuration Out of Range
| Set Point configuration is outside limits and may be dangerous for detected nominal
battery voltage.
| Confirm the Charge Profile is appropriate for the battery being charged.
Refer to the Battery Manufacturer’s
recommendations.
Please refer to the table below for Fault Codes.
Fault Code| LED Code| Error| Description| Recommended
Action
---|---|---|---|---
-1
to
-100
| ****
Solid Red
| ****
Generic Hardware Fault
| ****
A hardware fault has been detected.
| Please contact your distributor to organize a warranty replacement.
-350
| ****
1 Flash – Red
| ****
No Output Detected
| ****
No output has been detected.
| ****
Power cycle the device and contact AERL if it reoccurs.
-1100
| ****
Solid Red
| ****
Internal Temperature Critical
| The device’s internal systems have reached a critical temperature and shutdown to prevent system
damage.
| ****
The device will automatically restart when it’s safe to do so.
-1159
| 2 Flashes – Red| Low Output Voltage| Low output voltage has been detected.| Confirm the battery is connected to the controller.
-1154
| ****
3 Flashes – Red
| ****
High Output Voltage
| ****
High output voltage has been detected.
| Battery may be being charged from a secondary source. Confirm all system battery charge parameters.
-1157
| ****
4 Flashes – Red
| ****
High Output Current
| ****
High output current has been detected.
| Confirm no short circuit is present on the output of the controller.
-1152
| ****
5 Flashes – Red
| ****
High PV Voltage
| High PV Voltage has been detected. The device has shutdown to prevent system damage.| ****
Confirm PV String Configuration is appropriate for the device.
-1156
| ****
6 Flashes – Red
| ****
High PV Current
| ****
High PV input current has been detected.
| Confirm PV String Configuration is appropriate for the device.
-1051
-1052
| ****
Solid Red
| ****
Active Cooling Degraded
| ****
Degraded active cooling capability has been detected.
| ****
Replace Fan Module.
---|---|---|---|---
-1102
| ****
8 Flashes – Red
| ****
High Battery Temperature Detected
| ****
The battery temperature sensor has detected a high battery temperature.
Operating the battery at a high temperature will greatly reduce its lifespan.
| Consider increasing the battery temperature compensation factor with the AERL Link Software or reducing the ambient environment
temperature.
-1103
| ****
9 Flashes – Red
| ****
Low Battery Temperature Detected
| The battery temperature sensor has detected a low battery temperature.
Operating the battery at a low temperature may greatly reduce its lifespan.
| Consider a temperature-controlled battery environment if the battery regularly experiences low temperatures.
-1401
-1402
-1403
| ****
10 Flashes
– Red
| ****
Earth Fault Detected
| ****
An Earth Fault has been detected.
| ****
Disconnect the device, confirm the fault with a Megger, and repair the system.
COOLMAX SRX-R – Rack Mount
Australian Energy Research Labs
AER09-R – Rev 1.0.0
9th May 2023
References
- Renewable Energy Power Solutions Since 1985 | AERL
- Renewable Energy Power Solutions Since 1985 | AERL