Post on 08-Nov-2014
Gamatronic Electronic Industries Ltd.
Har Hotzvim Industrial Park, 14 Hartom St., PO Box 45029, Jerusalem 97774, Israel
Tel: +972-2-588-8222 Fax: +972-2-582-8875
Email: info@gamatronic.co.il Website: www.gamatronic.com
POWER SYSTEM CONTROLLER
MODEL SC1006 UNIVERSAL NET
12VDC, 24VDC, 48VDC, 60VDC
User Guide and Instruction Manual
Release 1.7
June 2006
Gamatronic Electronic Industries Ltd. User Guide
ii User Guide and Instruction Manual Gamatronic Electronic Industries Ltd.
Gamatronic Electronic Industries Ltd. Har Hotzvim Industrial Park
14 Hartom St.
PO Box 45029
Jerusalem 97774
Israel
Tel: +972-2-588-8222
Fax: +972-2-582-8875
Email: info@gamatronic.co.il
Website: www.gamatronic.com
Copyright 2006 by Gamatronic Electronic Industries Ltd. All rights reserved worldwide.
The information contained in this document is proprietary and is subject to all relevant copyright, patent and other
laws protecting intellectual property, as well as any specific agreement protecting Gamatronic Electronic Industries
Ltd. rights in the aforesaid information. Neither this document nor the information contained herein may be published, or reproduced, in whole or in part, without the express, prior, written permission of Gamatronic Electronic Industries Ltd. In addition, any use of this document or the information contained herein for any purposes other than those for which it was disclosed is strictly forbidden.
Gamatronic Electronic Industries Ltd. reserves the right, without prior notice or liability, to make changes in equipment design or specifications.
Information supplied by Gamatronic Electronic Industries Ltd. is believed to be accurate and reliable. However,
no responsibility is assumed by Gamatronic Electronic Industries Ltd. for the use thereof nor for the rights of third parties which may be affected in any way by the use thereof.
Any representation(s) in this document concerning performance of Gamatronic Electronic Industries Ltd.
product(s) are for informational purposes only and are not warranties of future performance, either express or
implied. Gamatronic Electronic Industries Ltd. standard limited warranty, available upon request, stated in its
sales contract or order confirmation form, is the only warranty offered by Gamatronic Electronic Industries Ltd. in relation thereto.
This document may contain flaws, omissions or typesetting errors; no warranty is granted nor liability assumed in
relation thereto unless specifically undertaken in Gamatronic Electronic Industries Ltd. sales contract or order confirmation. Information contained herein is periodically updated and changes will be incorporated into subsequent
editions. If you have encountered an error, please notify Gamatronic Electronic Industries Ltd. All specifications
are subject to change without prior notice.
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TABLE OF CONTENTS
1. INTRODUCTION....................................................................................................... 1
1.1 SC1006Net’s Main Features ....................................................................... 1
2. SYSTEM CONTROLLER ........................................................................................... 4
2.1 Front Panel ................................................................................................. 5
2.1.1 7-Segment Display.................................................................................... 6 2.1.2 7-Segment Display LEDs .......................................................................... 6 2.1.3 LED Status Indicators ............................................................................... 7 2.1.4 Control Buttons ......................................................................................... 8 2.1.5 Audible alarm buzzer ................................................................................ 8 2.1.6 RJ45 Communication Port ........................................................................ 8
2.2 RS232 Communication Protocol & Data Structure ...................................... 9
2.2.1 General Information .................................................................................. 9 2.2.2 Master ..................................................................................................... 10 2.2.3 Slave ....................................................................................................... 10 2.2.4 TCP/IP Communication .......................................................................... 11
2.3 Linking Other Equipment to the SC1006 ................................................... 12
2.3.1 Changing SC1006Net to SC1006Serial .................................................. 12
3. THEORY OF OPERATION ....................................................................................... 16
3.1 Modifying Nominal Values......................................................................... 16
3.1.1 Output Voltage ........................................................................................ 16 3.1.2 Battery Test............................................................................................. 17 3.1.3 Battery Charge Current Limit .................................................................. 17 3.1.4 Battery Charge Temperature Compensation .......................................... 17 3.1.5 LVD ......................................................................................................... 18 3.1.6 Alarm Thresholds.................................................................................... 18
3.2 Default Parameter Banks .......................................................................... 19
3.2.1 Actual Parameters Bank ......................................................................... 19
3.3 Measurement of System Parameters ........................................................ 20
3.4 Fault Detection and Alarms ....................................................................... 21
3.4.1 Alarm LOG .............................................................................................. 21 3.4.2 Alarm Dry Contacts ................................................................................. 22
4. MONITORING AND SETUP OF THE POWER SYSTEM ................................................. 23
4.1 Setting-Up Parameters in Edit Mode ......................................................... 23
4.2 Changing the Battery Charge Mode .......................................................... 24
4.2.1 Floating Voltage Setup............................................................................ 24 4.2.2 Equalizing Voltage Setup ........................................................................ 24
4.3 Testing Power System Components ......................................................... 25
4.3.1 Battery Test............................................................................................. 25 4.3.2 7-Segment Display/Alarm Buzzer/LEDs ................................................. 25 4.3.3 Relays ..................................................................................................... 26
4.4 Setting up the Nominal Values of Parameters........................................... 27
4.4.1 Saving and Restoring Nominal Values.................................................... 27
4.5 Setting up Alarm Thresholds ..................................................................... 28
4.6 Recalibrating the Power System's Measurements..................................... 29
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4.7 Real Time Clock (RTC) ............................................................................. 30
4.8 Resetting the Controller ............................................................................ 31
4.9 Indications and Measurements.................................................................. 31
4.10 Special Codes for System Monitoring/Setup ............................................. 32
Figures
FIGURE 1: PS1006 POWER SYSTEM WITH AN SC1006 CONTROLLER ............................ 4
FIGURE 2: SC1006 FRONT PANEL ............................................................................... 5
FIGURE 3: CROSS CABLE .......................................................................................... 12
FIGURE 4: PC157 BOARD CONFIGURED FOR SERIAL COMMUNICATION .......................... 13
FIGURE 5: PC157 BOARD CONFIGURED FOR ETHERNET SNMP AND THE PC375 BOARD14
FIGURE 6: PC157 BOARD CONFIGURED FOR ETHERNET SNMP AND THE PC575 BOARD15
FIGURE 7: DEFAULT DRY CONTACTS-ALARMS CONNECTIONS...................................... 22
FIGURE 8: MEASURING CALIBRATION VALUES WITH A DMM ........................................ 29
FIGURE 9: MAIN SCREEN, PSM-DC 1006 MONITORING SOFTWARE (48V SYST.)........... 37
FIGURE 10: SET VALUES TAB, PSM DC 1006 MONITORING SOFTWARE (48V SYST.) .... 38
FIGURE 11: SET ALARMS TAB, PSM DC 1006 MONITORING SOFTWARE (48V SYST.) .... 38
Tables
TABLE 1: 7-SEGMENT DISPLAYS .................................................................................. 6
TABLE 2: LED STATUS INDICATORS ............................................................................. 7
TABLE 3: CONTROL BUTTONS ...................................................................................... 8
TABLE 4: STATUS ALARMS......................................................................................... 20
TABLE 5: ALARM MESSAGES...................................................................................... 21
TABLE 6: MEASURING CALIBRATION VALUES WITH A DMM .......................................... 29
TABLE 7: SYSTEM MONITORING AND SETUP................................................................ 32
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1. INTRODUCTION
The SC1006NET controller enables the user to control and monitor all components of
the PS1006 DC power supply system. The ability to reset various configurations
allows the user to adjust the system to suit specific needs. The clear, simple, user-
friendly graphic user interface (GUI) makes the controller easy to use, configure and
calibrate.
SC1006NET can be used with 12V, 24V, 48V, and 60V power systems.
The communication protocol for SC1006NET is detailed in RS232 Communication
Protocol & Data Structure, page 9 and TCP/IP Communication, page 11.
The user may refer to this protocol to either write an application or to implement
Gamatronic’s Windows-based monitoring and control software (PSM-DC1006
NET/SERIAL).
1.1 SC1006Net’s Main Features
SC1006Net’s main features include:
1. Control of power system components/parameters:
a. DC output voltage control.
b. Control of up to two LVDs with an independent threshold
disconnection setup.
c. Forces each LVD to open independently / Sets it back to normal.
d. Controller reset.
e. Easily restored factory defaults.
f. Easily saved and restored user defaults (in addition to factory defaults).
g. Operation with either one or two battery sets (affects the battery test
procedure).
2. Tests of power system components:
a. Battery test – up to two battery sets, both manual and
periodic/automatic triggering, protected by an adjustable top time.
b. 7-Segment Display-LED-buzzer test.
c. Relay test.
3. Alarms:
a. Three output dry contacts for alarm indication, which are entirely
configured by the user.
b. Alarm buzzer-mute controlled locally by a control button or remotely
by an application.
c. Setting the threshold levels for triggering alarms.
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d. Modem dialing upon alarm activation.
e. Phone number for modem dialing set by the user.
f. Event LOG – 192 cyclic event LOG (+ CLEAR).
g. Embedded real-time clock backup for two weeks of voltage supply
absence.
4. Remote monitoring and control:
a. IP, MASK and GATEWAY parameters used by the TCP/IP
communication.
b. Modem init string (READ/WRITE) for modem installation (unit
configuration).
c. User ID – an additional six-byte of nonvolatile identification.
5. User-friendly user interface:
a. Three-digit 7-Segment Displays for displaying measurements and
parameter values.
b. Intensity control of the 7-Segment Displays.
c. LED indicators displaying system status.
d. LEDs indicating which parameter is being monitored/modified.
6. User adjustable parameters:
a. Battery test supply voltage and failure threshold levels adjustable by
the user.
b. AC voltage failure threshold (high and low) levels adjustable by the
user.
c. Separate DC voltage failure threshold (high and low) levels for
equalizing and floating charge modes adjustable by the user.
d. Over-temperature threshold level adjustable by the user.
e. Auto battery test period and top time adjustable by the user.
f. Auto equalizing period and top time adjustable by the user.
g. Independent voltage setup for both floating and equalizing modes.
h. A unique ID, which is determined by the manufacturer and by the user.
i. Calibration of ACV DCV LOAD-current and RECT current easily
performed by the user, thus reducing the number of drift- and error
effect.
j. One-step current measurement offset (caused by hardware) strip-off.
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7. Optional features that the user can enable/disable:
a. Enable / Disable automatic equalizing.
b. Periodic/Auto and Manual boost mode, protected by an adjustable top
time.
c. Battery charge temperature compensation.
d. Temperature coefficient and temperature compensation Enable /
Disable determination adjustable by the user.
e. Battery charge current limit.
f. Battery current limit value and Enable / Disable determination
adjustable by the user.
8. Measurements shown on 7-segment display:
a. DC output voltage.
b. DC rectifiers total current.
c. Battery charge/discharge currentt.
d. Load current.
e. Temperature reading from the relocatable temperature sensor.
9. LED indicators:
a. AC line voltage status.
b. LVD status.
c. Battery testing status and last test result.
d. DC output voltage status (float / equalize).
e. Faults indication (an audible alarm is also present).
f. Communication status.
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2. SYSTEM CONTROLLER
The SC1006NET system controller is housed in the power system’s rack along side a
user-defined number of rectifiers (one or more), which it monitors and controls along
with the rest of the system’s components (i.e. LVDs, batteries, etc.).
The controller is a “Hot Swap” Plug-In model that can be replaced or switched on and
off during system operation without damaging either the controller or the system's
operation mode or components.
The controller’s main components include the front panel communication port and the
back panel connector that links the controller to the system.
Rectifiers Controller
Figure 1: PS1006 Power System with an SC1006 Controller
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2.1 Front Panel
The SC1006NET front panel contains the following:
1. A three-digit 7-Segment Display panel
2. Five LED indicators under the 7-Segment Display that indicate which parameters
are currently being displayed or reconfigured
3. Five LEDs to indicate the real-time status of the power system.
4. Two LEDs to indicate the current communications status.
5. Seven control buttons for managing the controller
6. An audible alarm buzzer that warns of a fault or faults in the system
7. An RJ45 Communication Port that allows remote communication with the
controller, via the RS232 or 10Base-T/Ethernet protocols. The protocol used by
the SC1006 controller depends on the cable used and the data received by the
SC1006.
Figure 2: SC1006 Front Panel
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2.1.1 7-Segment Display
In Monitoring mode, the 7-Segment Display digitally displays the real-time status of a
system parameter. The user can change the nominal values of the parameter displayed
on the 7-Segment Display with the Up and Down arrow buttons (see Setting up the
Nominal Values of Parameters, page 27).
2.1.2 7-Segment Display LEDs
The lit LED under the 7-Segment Display indicates which system parameter is
currently being monitored or modified. The relationship between the LED, the 7-
Segment Display and the parameter modifications is described in the following table:
Table 1: 7-Segment Displays
LED 7-SEGMENT DISPLAY SETTING MODIFICATION
VDC DC Voltage measurements (Output Voltage)
Adjusting the output voltage in Floating Mode
Arect Total DC current output from the rectifiers
None
Abatt Battery output current Adjusting threshold voltage for opening the 2 LVDs
Aload Current drawn by a load None
TEMP Battery temperature Adjusting the coefficient by which the charge voltage for batteries is modified to compensate for high or low battery temperature
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2.1.3 LED Status Indicators
The color-coded LED lights indicate the real-time status of system components, as
described in the following table:
Table 2: LED Status Indicators
LED COLOR MEANING
AC Green A steady light indicates normal input voltage from the mains
AC Unlit No voltage from the mains
LVD Red A steady light indicates that the LVD is open (either the controller system opened the LVD to prevent battery damage or the user manually opened the LVD)
LVD Unlit An unlit LED indicates a normal operation mode.
BATT Green 1. A steady light indicates that the last battery test passed
2. A flashing light indicates a battery test in progress
BATT Unlit An unlit LED indicates the last battery test failed.
FAULT Red 1. A steady light indicates that there is a fault in the system.
2. A flashing light indicates that there is a rectifier fault plus the possibility of another fault as well.
FAULT Unlit An unlit LED indicates that there are no active faults in the system.
FL / EQ Green 1. A steady light indicates normal DC voltage and that the system is in Floating mode.
2. A flashing light indicates that the system is in Equalizing mode.
FL / EQ Unlit Indicates a fault in the DC voltage
LINK Lit The controller is communicating with a remote application via a Serial or Net connection:
1. 10BaseT (Ethernet) - Indicates that the link is OK
2. Serial - Indicates serial Line activity
ACT Lit 10BaseT (Ethernet) - Net Activity
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2.1.4 Control Buttons
The following table describes the results of pressing each of the control buttons.
Table 3: Control Buttons
BUTTON DESCRIPTION
BATT TEST 1. Manually initiates a battery test.
2. Aborts an ongoing battery test.
(ALARM OFF) 1. Silences the beep tone that signals an active alarm.
2. Manually initiates a test of the controller's LEDs, display, and alarm beep tone if it is pressed when the alarm is silent. (Note: This does not test the LINK and ACT LEDs.)
UP / DOWN
ARROW BUTTONS
1. Browses measurements and parameters
2. Modifies parameters
ENT 1. Enters Setup mode
2. Saves changes made in Editing or Setup modes
+ ENT Enters Editing mode (enhanced setup mode)
ESC 1. Exits Setup or Editing mode.
2. Pressing this key for a few seconds displays the F Indicator codes on the 7-Segment Display screen (see Special Codes for System Monitoring/Setup, page 32).
EQ 1. Manually switches the Charge mode from Equalizing to Floating when the controller is in Equalizing mode.
2. Manually switches the Charge mode from Floating to Equalizing when the controller is in Floating mode.
Reset Resets the controller
2.1.5 Audible alarm buzzer
The audible alarm buzzer warns users of the existence of a fault or faults in the power
system. It continues to sound until the fault no longer exists or until the button is
pressed. The Fault LED remains lit until the fault is no longer active, even if the
alarm buzzer has stopped.
2.1.6 RJ45 Communication Port
This port enables remote communication with the controller, allowing remote
monitoring and control of operation, status, and parameter setting. The following
communication protocols may be used with it (see RS232 Communication Protocol &
Data Structure, page 9):
1. RS232 serial port
2. SNMP (TCP/IP – Ethernet)
3. SNMP (TCP/IP – PPP)
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2.2 RS232 Communication Protocol & Data Structure
The SC1006 system controller supports a unique RS232 communication protocol.
This protocol allows a user at a remote location to send commands to the controller
and retrieve data and status information from it:
1. The command packet (sent to the controller) includes the operation codes to be
carried out by the controller plus any data required for that operation.
2. The retrieved packet (sent by the controller) includes all possible data that can
be supplied by the controller. It is sent every time a valid command packet is
received, even if the command packet only contains a non-operation
command.
2.2.1 General Information
The communication protocol adheres to the following general rules:
1. The host PC and the controller communicate via Half-Duplex RS232 9600.N.1
RX, TX, GND lines with no flow control (neither hardware nor software).
2. The host is always the master and the controller is the slave.
3. The data is binary with no dedicated control characters.
4. Data transmitted by each end has a constant length.
5. Three elements are utilized for data reliability:
a. three byte – header
b. one byte – check sum
c. three byte – termination.
6. On receiving a valid packet, the controller starts responding within 50 msec.
7. On receiving a header start (0 × AC) a 500msec, a long reception window is
initiated. If a valid packet is received it is processed, otherwise, the controller
backs-off by initializing the reception counter.
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2.2.2 Master
The “master” is normally a PC or a remote power management system. The master
sends its packet, which includes the header, opcode, data, checksum and termination.
The ten-byte opcode bit-combination enables the user to perform one or more
functions simultaneously.
The 97-byte data should include operation-relevant data set by the user as opcode.
2.2.3 Slave
The “slave” is normally the SC1006NET controller. The slave responds as soon as it
receives a valid packet, which includes a header, received_opcode,
received_checksum, id, data, checksum and termination.
1. The received_opcode is the last opcode received from the master.
2. The received_checksum is the last checksum received from the master.
3. The four-byte id consists of preprogrammed three bytes and an additional byte,
which may be programmed by the master.
4. The 118-byte data always includes all the data or status information that the
user may request, i.e., every transaction relayed from the master to the slave
results in the retrieval of all possible data that the slave is able to supply.
Note: The data retrieved in a transaction does not include the changes made by the
host’s command (if any). Another retrieval should take place in order to receive the
values affected in the previous command.
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2.2.4 TCP/IP Communication
The SC1006Net controller enables the user to communicate via SNMP and to send
alarms to remote NMS(s).
Gamatronic applications that work with the SC1006Net controller are PSM-DC
1006Net, GeMS and Global Control. Before these applications can monitor and
control the power system, the user must set the IP, Gateway and Mask addresses of the
controller and the IP addresses of the remote NMS(s) that are to receive Alarm Traps
(optional).
The codes for the controller addresses are:
• IP: B01-B04
• Gateway: B05-B08
• Mask: B09-B12
To set the addresses of the controller via its front panel:
1. Go into Edit mode. To enter Edit mode:
Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Press the arrow buttons until B01 appears and press ENT.
(See Table 7 on page 32 for the meaning of the various codes displayed on the
screen.)
4. Change the value of the address using the arrows and press ENT to save the value.
5. Press the arrow buttons until B02 is displayed.
6. Repeat step 3 until the contents of the B01-B12 fields have been set.
7. Press ESC to return to Monitoring Mode.
To configure an MIB Browser to receive Alarm Traps from the controller:
1. Open a MIB Browser.
2. Enter the IP address of the controller into the Remote SNMP Agent field.
3. Open a MIB Compiler.
4. Add Gamatronic PS MIB to the compiler.
5. Compile it in psTrap; alarm traps appear in the MIB tree in psSecurityTrapIp1,
psSecurityTrapIp2, psSecurityTrapIp3, or psSecurityTrapIp4.
Note: It is possible to configure up to four NMS.
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2.3 Linking Other Equipment to the SC1006
The circuit boards installed in the SC1006 determine the protocol it uses to
communicate with the devices attached to it.
For serial RS232 communication, only the PC157 motherboard is required.
For TCP/IP communication, the addition of either the PC575 (or PC375) is also
required. The additional card is connected to the PC177 card with two connectors.
2.3.1 Changing SC1006Net to SC1006Serial
To transform SC1006Net into SC1006Serial, a technician must:
1. Replace the 10baseT cable connecting SC1006Net to PS1006 with a cross
cable (see Figure 3)
2. Change the jumpers on the SC1006Net controller card to match the jumpers in
Figure 4
Figure 3: Cross Cable
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Figure 4: PC157 board configured for serial communication
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Figure 5: PC157 board configured for Ethernet SNMP and the PC375 board
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Figure 6: PC157 board configured for Ethernet SNMP and the PC575 board
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3. Theory of Operation
SC1006 monitors and controls the PS1006 power supply system with:
1. Nominal values of system parameters that can be setup by the user or imported
from a parameters bank.
2. Measurements of the system's input AC voltage and output DC voltage and
current.
3. Responses to data received from the system.
4. Fault detection and alarms.
3.1 Modifying Nominal Values
The values the following power system parameters can be set by the user or imported
from a parameter bank (see Default Parameter Banks, page 19):
1. Output voltage.
2. Battery test.
3. Battery charge current limit.
4. Battery temperature compensation.
5. LVD opening.
6. Alarm thresholds.
3.1.1 Output Voltage
The system output voltage set by the controller is affected by:
1. Activated charge mode (floating/equalizing).
2. Battery temperature compensation (if enabled).
3. Battery test (if activated).
4. Battery charge current limit (if enabled).
5. Deviation of output voltage.
In the absence of a controller or in the event of a controller failure, the output voltage
reverts to the system's default output voltage.
3.1.1.1 Output / Floating Voltage Setup
To change the output / floating voltage setting:
1. Press the arrow buttons until the VDC LED is lit.
The floating voltage is displayed.
2. Press the ENT button. The display flashes.
3. Use the arrow buttons to set the output voltage.
4. Press ENT to save the new setting.
5. Press ESC to quit.
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3.1.2 Battery Test
The user may manually initiate a battery test at any time via a control button or a
remote application. In addition, an enabled automatic battery test occurs whenever a
period of days (set by the user) has passed.
The battery test uses an algorithm involving the actual battery current and battery
capacity that is set by the user and which can always be modified by the user.
The formula is:
TIME LEFT (sec) =
[BATTERY CAPACITY (AH) × 180 / BATTERY CURRENT (A)] – ELAPSED TIME (sec)
In any event, the test time does not exceed the time limit parameter. The controller can
handle up to two battery sets (the number of batteries is set by the user). It uses the
LVDs to switch off the battery not being tested. Throughout the test, the supply
voltage is lowered to a defined voltage set by the user which allows the battery to
discharge. The controller continually checks the battery’s voltage, waiting for it to
cross the threshold set by the user as the criteria that indicates a bad battery. If
threshold is crossed, the test of the battery is aborted and the battery is considered
faulty. The results are stored separately in a non-volatile memory.
3.1.3 Battery Charge Current Limit
The battery charge current limit controls, if enabled, the output voltage in the event
that the battery current is higher then the preset user value. The control is achieved in
real-time, ensuring that the higher the current reaches, the lower the output voltage
(and vice versa).
To set up the total battery charge current limit of the power system, you must enter
Edit mode and change the values defined for field codes C17 and D10. Refer to
section 4.1 “Setting-Up Parameters in Edit Mode” on page 23
3.1.4 Battery Charge Temperature Compensation
The system’s temperature is measured by two sensors. These real-time sensors are
used for determining the amount of temperature compensation required as well as the
criteria for activating the over temperature alarm.
The battery current compensation effects, if enabled, the output voltage according to
the formula below, where K is the compensation value determined by the user.
VP (T°C) = VP (25°C) – 24 × K (T°C - 25°C)
Where the VP is limited in the following way:
VP (25°C) – 1.5 < VP < VP (25°C) + 2
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3.1.4.1 Battery Charge Temperature Compensation Setup
By default, the battery charge temperature compensation is set to 6mV per battery cell.
To change the compensation setting:
1. Press the arrow buttons until the TEMP LED is lit.
2. Press the ENT button to display the mV compensation value.
3. Use the arrow buttons to modify the compensation value, if required.
4. Press the ENT button to save the new setting.
5. Press ESC to return to Monitoring mode.
3.1.5 LVD
System controller SC1006 supports up to two LVDs. The number of LVDs (one or
two) is set by the user and equals the number of battery sets.
The LVD’s first and most important task is to disconnect the batteries in the event
that a deep discharge is endangering the battery’s life. The user determines the criteria
for opening each LVD separately. The user also defines the hysteresis (the gap
between the opening and closing voltage of an LVD).
The LVD’s second function - during the battery test - is to disconnect the battery not
being tested (in the case of a two battery system only). It is possible to turn off or
normalize asynchronously each of the LVDs, regardless of the system status.
3.1.5.1 LVD Voltage Setup
To change the voltage on both LVDs:
1. Press the arrow buttons until the ABAT LED is lit.
2. Press the ENT button to display the existing LVD voltage setting.
The display flashes.
3. Use the arrow buttons to change the voltage setting as required.
4. Press ENT to save the new setting
5. Press ESC to return to Monitoring mode.
3.1.6 Alarm Thresholds
There is a range of permitted values for each system parameter. If the value of a
system parameter is outside the defined range, an alarm is triggered (see Setting up
Alarm Thresholds, page 28).
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3.2 Default Parameter Banks
There are two categories of stored default values for parameters, which can be
retrieved at any time to become the current values of parameters:
• Factory defaults determined by Gamatronic. The user may retrieve them but
cannot modify them.
• The user default bank in which the current parameters can be copied and later
retrieved as default parameters.
The two options allow the user the flexibility and confidence of being able to return to
the factory defaults, as well as the convenience of retrieving user-defined parameters
already stored as good functioning ones.
3.2.1 Actual Parameters Bank
APPLICATION
1006
ACTUALFRAME
USERDEFINED
FACTORYDEFINED
READ ONLY
READ/WRITE
SAVE USER
DEFAULTS
RESTOREUSER
DEFAULTS
RESTOREFACTORYDEFAULTS
The controller always uses the non-volatile ACTUAL PARAMETERS BANK as its
reference for settings, alarms, etc. (normal operation). This bank can be updated by
the user via both the controller's panel and a remote software application. In addition,
an entire bank can be copied into it. For this purpose, the user can choose to copy
either Factory or User Defaults to the actual bank (see Saving and Restoring Nominal
Values, page 27).
Factory Defaults are rigidly determined by the factory, while User Defaults can be
created and saved by the user from a setup existing in the controller at any time.
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3.3 Measurement of System Parameters
The system parameters described in the following table are constantly being measured
to provide updated data about their real-time status. The permitted nominal value
range for these parameters is set by the user or the manufacturer. If the monitored
value for these parameters is out of the permitted range, an alarm is triggered. (See
Fault Detection and Alarms, page 21 for a table listing the faults linked to each alarm
message.
Table 4: Status Alarms
PARAMETER STATUS INFORMATION ALARM MESSAGE
AC Input Line AC voltage from the mains AC HIGH AC LOW
DC Output DC output voltage for
floating mode
DC HIGH DC LOW
DC LOWLOW LVD-2 DRIVEN OPEN LVD-1 DRIVEN OPEN
DC Output DC output voltage for equalizing mode
DC HIGH DC LOW
DC LOWLOW LVD-2 DRIVEN OPEN LVD-1 DRIVEN OPEN
Load Current Current drawn by the load
Rectifier Current
Sum of the total output current from all the rectifiers
RECTIFIER FAIL
Battery Current
Calculated by subtracting the load current from the rectifier
current
Activates the current limit feature (if enabled)
Battery Temperature
Temperature of batteries OVER TEMPERATURE
Dry Contacts Circuit breakers open or closed
AUX BREAKER OPEN LOAD BREAKER OPEN
BATTERY BREAKER OPEN AUX CONTACT CLOSED
INV/CONV FAULT CONTACT OPEN
Note: The alarm levels for DC Output are set separately for floating and equalizing
modes so that there are suitable alarm levels for whichever mode is running at any
given time.
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3.4 Fault Detection and Alarms
The controller generates alarms in response to the power system faults described in
the following table. When an alarm becomes active the Fault LED lights up, the
alarm buzzer sounds, and an alarm message - marked by a Time Stamp - is recorded
in the Event Log. One of the LED status indicators may light up too.
Each alarm remains active for as long as the fault remains active. It disappears as
soon as the fault no longer exists. The exception to this is a failed battery test.
Batteries must pass the battery test for their alarm status to revert to normal.
The alarm message associated with each fault is described in the following table:
Table 5: Alarm Messages
ALARM MESSAGE FAULT
AC Low Low voltage in mains
AC High High voltage in mains
DC High Voltage DC output voltage high
DC Low Voltage DC output voltage low
DC LowLow Volt DC output voltage too low (LVD is opened)
Batt#1 Test Fault Fault in Battery 1
Batt#2 Test Fault Fault in Battery 2
LVD-2 Driven open Low Voltage Detector 2 opened due to low output voltage (batteries disconnected from system)
LVD-1 Driven open Low Voltage Detector 1 opened due to low output voltage (batteries disconnected from system)
Aux Contact open Auxiliary input dry contact open
Aux Breaker open Auxiliary input circuit breaker open
Battery Breaker open Battery circuit breaker open (batteries disconnected from system - no system backup or charging)
Load Breaker open Load circuit breaker open (load disconnected from system)
Inv/Conv fault Fault in Inverter/Converter module (if installed)
Rectifier Fail Rectifier is not OK
Over Temperature Battery temperature high
3.4.1 Alarm LOG
Each event is recorded in an event LOG which contains the history of up to 192 power
system faults along with information describing each event and when it occurred.
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3.4.2 Alarm Dry Contacts
Three dry contacts are used for direct alarm activation. The user can connect a dry
contact to any (or none) of the 16 listed alarms. An alarm can be connected to more
than one dry contact and a dry contact can be connected to more than one alarm.
When an alarm assigned to a dry contact is activated, the dry contact is also activated.
The default (set by the manufacturer) connections between alarms and dry contacts are
indicated by the darkened squares in Figure 7.
Figure 7: Default Dry Contacts-Alarms Connections
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4. MONITORING AND SETUP OF THE POWER
SYSTEM
When the SC1006 controller is in Monitoring mode, the user can monitor any of five
system measurements or parameters. These system parameters are represented by the
five LEDs immediately under the 7-Segment Display (see Table 1 on page 6). To
monitor a specific parameter, press an arrow button until the LED for the desired
parameter is lit. (See section 3.1, Modifying Nominal Values, on page 16.)
The other system parameters can be monitored in Editing Mode. See 4.1 below.
The user can use SC1006 to control the power system by:
1. Changing the battery charge mode.
2. Testing power system components.
3. Setting up the nominal value of power system parameters.
4. Setting up the alarm thresholds of power system parameters.
5. Recalibrating the power system's measurements.
6. Setting the Real-Time Clock.
7. Resetting the Controller.
4.1 Setting-Up Parameters in Edit Mode
To set up the controller, you must enter Edit mode. You also need to know the “field
code” of the parameter you want to change. Table 7 which begins on page 32 lists the
field code for each of the system’s parameters.
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Use the arrow buttons to move forward (or backward) through the field codes until
the desired field code is shown on the 7-Segment Display .
(The arrow buttons change the display each time an arrow they are pressed).
4. Press ENT to enable editing of the parameter.
5. Use the arrow buttons to modify the value of the parameter as needed.
6. Press ENT to save the changes.
7. Press ESC to end the Edit mode and return to Monitoring mode.
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4.2 Changing the Battery Charge Mode
There are two battery charge modes, each of which has different settings and output
voltages:
• Floating - Normal battery charging mode
• Equalizing - Forced, accelerated battery charging mode
If the automatic equalizing mode is enabled, the system automatically goes into
equalizing mode after:
• the passage of a set period of time.
• a power failure or controller startup (after a delay of ten minutes).
• the batteries are discharged.
The equalizing session is terminated when either a pre-set time limit is reached or the
charge current becomes low (1/10 of the battery’s capacity in amperes).
Note: In the event of a power failure an equalizing mode session is aborted.
The user can manually switch to either of these modes at any time.
To manually switch to Equalizing mode: Press the EQ button when the system is
in Floating mode.
To manually switch to Floating mode: Press the EQ button when the system is in
Equalizing mode.
4.2.1 Floating Voltage Setup
To change the floating voltage value, see 3.1.1.1 “Output / Floating Voltage Setup” on
page 16.
4.2.2 Equalizing Voltage Setup
To set the equalizing voltage:
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, the
current field code is displayed. The first field code to be displayed is A01.
In addition to the field code A01, the screen also shows the equalizing voltage.
3. Press ENT.
4. Use the arrow buttons to adjust the value of the equalizing voltage.
5. Press ENT to save the new equalizing voltage.
6. Press ESC to exit Edit mode and return to Monitoring mode.
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4.3 Testing Power System Components
The user can test three power system components to verify they are working properly:
• Batteries.
• 7-Segment Display/Alarm buzzer/LEDs.
• Relays.
4.3.1 Battery Test
The system automatically tests up to 2 batteries periodically. The user can set the
length of time between battery tests and the battery test’s duration. If the battery tests
exceed the time specified, it is automatically aborted.
There are 2 possible methods of testing the batteries:
1. When setting up 1 set of batteries, while connected to the rectifier the voltage
should decrease to 45V (for 48VDC applications) or to 22.5V (for 24VDC
applications).
If while testing the voltage drops below 46v (for 48VCD applications) or below
23VDC (for 24VDC applications), the battery is faulty.
2. When setting up 2 sets of batteries, the controller disconnects one set and checks
the other as above.
At controller setup, the battery capacity should total the battery capacity string.
To manually start a battery test: Press the Batt Test button.
To manually abort an ongoing battery test: Press the Batt Test button while the
batteries are being tested.
4.3.2 7-Segment Display/Alarm Buzzer/LEDs
The control panel's 7-Segment Display, alarm buzzer and LEDs are automatically
tested to check if they are all working properly whenever the controller is turned on.
To manually test them: Press the button when the alarm is silent.
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4.3.3 Relays
There are three relays for alarms out (dry contacts). A technician can test any of them
in Edit Mode at any time to check if it is working normally.
To test the dry contact relays:
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Use the arrow buttons to move through the field codes until C01 is shown on the
7-Segment Display .
(The arrow buttons change the display each time an arrow they are pressed).
4. Press ENT to enable editing.
5. Use the UP arrow button to change the value of the field from 0 to the number of
the relay to be tested (1, 2, or 3).
6. Press ENT to save the changes made in the field; that relay is now disabled.
7. Perform an electrical check of the relay with an ohmmeter.
8. Repeat steps 2-6 until all the relays have been tested.
9. Presssing ESC causes you to exit from Editing Mode and returns you to
Monitoring mode.
Note: Only one relay can be disabled at a time. Disabling a second relay
automatically enables the first one. Pressing ESC to exit Editing Mode automatically
enables all disabled relays.
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4.4 Setting up the Nominal Values of Parameters
There are three system parameters whose values can be modified in Setup mode: (See
section 3.1 “Modifying Nominal Values” on page 16.)
• VDC (DC Output Voltage).
• Abatt (LVD opening and battery disconnect voltage).
• Temp (Temperature Compensation Coefficient).
Each of these three parameters is represented by an LED under the 7-segment display.
To enter Setup Mode for a parameter:
1. Press an arrow button until the screen displays either VDC, Abatt or Temp.
2. Press ENT to enter Setup mode for that parameter; the screen and the LED for that
parameter’s start blinking.
To increase the value of a parameter in Setup mode:
1. Press the Up arrow button repeatedly until the desired value is reached.
2. Press ENT to save the value in the non-volatile memory of the controller.
To decrease the value of a parameter in Setup mode:
1. Press the Down arrow button repeatedly until the desired value is reached.
2. Press ENT to save the value in the non-volatile memory of the controller.
4.4.1 Saving and Restoring Nominal Values
The user can use Edit Mode to:
1. Save the new, user-defined nominal values (field code C12).
2. Reset the nominal values to their factory-defined default values (field code C10).
3. Reset the nominal values to their user-defined default values (field code C11).
To save or restore nominal values:
Refer to Table 7 on page 32 to interpret the field codes.
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This puts you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Use the arrow buttons to move through the field codes until the field code you
want is displayed on the screen.
4. Press ENT to permit editing.
5. Use the UP arrow button to change the field's value from 0 to 1 and press ENT.
6. Press ESC to return to Monitoring Mode.
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4.5 Setting up Alarm Thresholds
The user can go into Editing Mode to set up the acceptable range of values for system
parameters. A value that is out of range triggers an alarm. These alarm thresholds can
be set up for the following parameters:
1. Low AC input voltage - Field Code A06.
2. High AC input voltage - Field Code A07.
3. Low DC Output voltage (Floating Mode) - Field Code A09.
4. LowLow DC Output voltage that opens LVD (Floating Mode) - Field Code A08.
5. High DC Output voltage (Floating Mode) - Field Code A10.
6. Low DC Output voltage (Equalizing Mode) - Field Code A12.
7. LowLow DC Output voltage (Equalizing Mode) - Field Code A11.
8. High DC Output voltage (Equalizing Mode) - Field Code A13.
9. Battery Test Alarm Voltage - Field Code A05.
10. High Battery Temperature - Field Code C13.
To set alarm thresholds:
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Use the arrow buttons to move forward (or backward) through the field codes until
the field code you want is displayed.
4. Press ENT to display the current value of that field code.
5. Use the arrow buttons to change the parameter’s value.
6. Press ENT to save the new value of that parameter.
7. Pressing ESC causes you to exit Editing mode and returns you to Monitoring
mode.
Note: See Special Codes for System Monitoring/Setup, page 32 for a complete list of
field codes.
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4.6 Recalibrating the Power System's Measurements
The power system is calibrated before it leaves the factory to guarantee precise voltage
and current measurements by removing measurement inaccuracies on the hardware
path. However, if it becomes necessary to recalibrate it again, an authorized
technician can easily recalibrate the system's two measured voltages and two
measured currents at any time remotely via software or directly via the controller.
Before the system can be recalibrated the real value of the measurements must be
determined with an accurate, 3-digit Digital Multi Meter (DMM) such as Fluke model
87. These values are then used to recalibrate the system (see below).
To determine the real value of system measurements:
1. Disconnect the system's batteries (so that Load Current = Rectifier Current).
2. Use a DMM to measure the real value of the measurements as described in Figure
8 and the table below.
SHUNT
mV
DMM
Vac
DMM
Vdc
DMM
LINE
PS1006 system
LOADS
under calibration
PH
N (-)
(+)INPUT OUTPUT
Figure 8: Measuring Calibration Values with a DMM
Table 6: Measuring Calibration Values with a DMM
MEASUREMENT CONTROLLER
CALIBRATION
CODE
WHAT TO SET
THE DMM TO
MEASURE
WHERE TO
CONNECT THE
DMM
LOAD WHEN
MEASURING
DC Voltage A16 Volts DC output (Vdc) Half Load
AC Voltage A17 Volts AC input (Vac) Half Load
Load Current A14 Amperes Shunt (mV) Full Load
Rectifier Current A15 Amperes Shunt (mV) Full Load
To calibrate system measurements:
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
3. Press the arrow buttons until the controller calibration code is displayed and press
ENT. (Table 7 on page 32 lists the meaning of each field code.)
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A field appears that already contains the logical value for that code (i.e. 220 for
AC Voltage) to make calibration easier.
4. Press the UP/DOWN arrow buttons until the field's value is the same as the real
value measured by the DMM and press ENT.
5. Press ESC to return to Monitoring Mode.
The logical value of the A14-17 field codes remains the same even after recalibration.
The recalibrated value cannot be viewed by accessing these codes. The only way to
find out if these parameters were recalibrated correctly is to observe the effect of the
recalibration on the system's measurements. Once recalibration is complete its effect
should be checked immediately to verify that it was done correctly.
To observe the effect of recalibration do the following:
• DC Voltage - Use the arrow buttons to select the VDC LED.
• AC Voltage - Go to Field Code F01 by pressing the ESC button for 5 seconds.
• Load Current - Use the arrow buttons to select the Aload LED.
• Rectifier Current - Use the arrow buttons to select the Arect LED.
At the beginning of the recalibration the batteries were disconnected from the power
system. The batteries should now be reconnected.
4.7 Real Time Clock (RTC) The real time clock is active during the entire controller operation time and will
continue to run for 14 days even if there is no voltage supply to the controller. The
main function of the real time clock is to provide the time for the timestamp that
forms part of each entry in the event log.
There are six field codes for setting the parameters of the RTC:
1. B13 – Second.
2. B14 – Minute.
3. B15 – Hour.
4. B16 – Day of the week.
5. B17 – Day of the month (date).
6. B18 – Month.
7. B19 – Year.
To set the RTC of the controller via its front penal:
1. Press and hold . You will hear a beep, and the screen displays “888”.
Quickly, while “888” is still displayed, and while still holding , press ENT.
This brings you into Edit mode.
2. In Edit mode, the screen flashes continuously. Every four or five flashes, it
displays the current field code. The first field code you will see is A01.
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3. Use the arrow buttons to display the RTC field code to be changed and press ENT.
4. Use the arrow buttons to change the value and press ENT.
5. Repeat step 2 until the contents of all the RTC fields have been changed.
6. Press ESC to return to Monitoring Mode.
4.8 Resetting the Controller
Resetting the controller causes the controller to initialize itself. This causes an
interruption in the power supply to the load devices and should therefore be avoided
whenever possible.
To reset the controller: Press the Reset button.
Note: resetting the controller alone and not the PS1006 units has no effect on
the calibration of the PS1006 units, nor on any of their parameter settings or
features.
During the few seconds that the reset is taking place, the system is not under
the control of the controller.
When the controller is switched on LEDs light up and the alarm buzzer sounds. This
process continues for a few seconds after which the controller is stabilized and the 7-
Segment Display shows the power system's DC voltage value.
It is possible to perform a remote reset from an application to restart the controller.
The affects are the same as if the Reset button on the panel was pressed.
Note: Avoid resetting the controller if possible. The Reset button is recessed to
prevent inadvertently resetting the controller and must be accessed with a thin pin.
4.9 Indications and Measurements 1. Press ESC button for 5 seconds.
The display shows field code F01 (Input AC Voltage).
2. Use the arrow buttons to change the field codes and to display each field’s value.
(Refer to pages 35 and 36 of Table 7.)
3. Press ESC to return to Monitoring mode.
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4.10 Special Codes for System Monitoring/Setup
The SC1006 display allows the user to monitor the system in “Monitoring Mode” or
to use the setup features in “Editing Mode. (See 4.1 on page 23 for details.)
Table 7 below provides explanations on the codes presented on the display.
Table 7: System Monitoring and Setup
TYPE OF INDICATION/SETTING DESCRIPTION ID
INDICATE_VEQUALIZING DC output voltage when battery is in equalizing mode
A01
INDICATE_LVD1_TRIP Threshold voltage for opening LVD1 A02
INDICATE_LVD2_TRIP Threshold voltage for opening LVD2 A03
INDICATE_BATT_TEST_VOLTAGE Output voltage of rectifiers drops to this level during battery test
A04
INDICATE_BATT_TEST_ALARM_VOLTAGE
Threshold voltage for indicating a fault during battery test
A05
INDICATE_AC_LO_ALARM_VOLTAGE Alarm triggered by AC input voltage ≤ this number
A06
INDICATE_AC_HI_ALARM_VOLTAGE Alarm triggered by AC input voltage ≥ this number
A07
INDICATE_LO_LO_ALARM_FL Alarm triggered by DC output voltage ≤ this number in floating mode
A08
INDICATE_LO_ALARM_FL Alarm triggered by DC output voltage ≤ this number in floating mode
A09
INDICATE_HI_ALARM_FL Alarm triggered by DC output voltage ≥ this number in floating mode
A10
INDICATE_LO_LO_ALARM_EQ Alarm triggered by DC output voltage ≤ this number in equalizing mode
A11
INDICATE_LO_ALARM_EQ Alarm triggered by DC output voltage ≤ this number in equalizing mode
A12
INDICATE_HI_ALARM_EQ Alarm triggered by DC output voltage ≥ this number in equalizing mode
A13
INDICATE_CURRENT_1_CALIB Calibration of rectifier current measurement A14
INDICATE_CURRENT_2_CALIB Calibration of load current measurement A15
INDICATE_DC_IN_CALIB Calibration of DC voltage measurement A16
INDICATE_AC_IN_CALIB Calibration of AC voltage measurement A17
Reserved for future calibrations Reserved A18
Reserved for future calibrations Reserved A19
Reserved for future calibrations Reserved A20
INDICATE_IP_MSB IP address segment A (where the full address is A.B.C.D)
B01
INDICATE_IP_2ND IP address segment B B02
INDICATE_IP_3RD IP address segment C B03
INDICATE_IP_LSB IP address segment D B04
INDICATE_GATEWAY_MSB Gateway address segment A (where the full address is A.B.C.D)
B05
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TYPE OF INDICATION/SETTING DESCRIPTION ID
INDICATE_GATEWAY_2ND Gateway address segment B B06
INDICATE_GATEWAY_3RD Gateway address segment C B07
INDICATE_GATEWAY_LSB Gateway address segment D B08
INDICATE_MASK_MSB Mask address segment A (where the full address is A.B.C.D)
B09
INDICATE_MASK_2ND Mask address segment B B10
INDICATE_MASK_3RD Mask address segment C B11
INDICATE_MASK_LSB Mask address segment D B12
INDICATE_RTC_SEC Real Time Clock - Seconds B13
INDICATE_RTC_MIN Real Time Clock - Minutes B14
INDICATE_RTC_HOUR Real Time Clock - Hours B15
INDICATE_RTC_DAY Real Time Clock - Day B16 Res.
INDICATE_RTC_DATE Real Time Clock - Date B17
INDICATE_RTC_MONTH Real Time Clock - Month B18
INDICATE_RTC_YEAR Real Time Clock - Year B19
INDICATE_DRY_OUT_TEST Relay Test No effect = 0 Flipped = 1, 2, 3, or 4
C01
INDICATE_USER_ID_1 Show/Set 6 User ID numbers C02
INDICATE_USER_ID_2 Show/Set 6 User ID numbers C03
INDICATE_USER_ID_3 Show/Set 6 User ID numbers C04
INDICATE_USER_ID_4 Show/Set 6 User ID numbers C05
INDICATE_USER_ID_5 Show/Set 6 User ID numbers C06
INDICATE_USER_ID_6 Show/Set 6 User ID numbers C07
INDICATE_SOFT_ID Show/Set Soft part of the User ID C08
INDICATE_CLEAR_LOG Delete contents of Event Log No Effect = 0 Clear = 1
C09
INDICATE_RESTORE_FACTORY_DEF Restores factory default nominal values No effect = 0 Restore=1
C10
INDICATE_RESTORE_USER_DEF Restores user defined nominal values No effect = 0 Restore=1
C11
INDICATE_SAVE_USER_DEF Saves user defined nominal values C12
INDICATE_OVER_TEMP_ALARM Battery temp. > this number triggers alarm C13
INDICATE_GO_AUTO_BOOST Switch to Equalizing mode No effect = 0 Go = 1
C14
INDICATE_ENABLE_AUTO_EQ Enable/Disable Automatic Equalizing Disabled = 0 Enabled = 1
C15
INDICATE_ENABLE_TEMP_COMP Modifies charge voltage for batteries to compensate for high or low battery temperature Disabled = 0 Enabled = 1
C16
INDICATE_ENABLE_CURRENT_LIMIT Battery charge current limit: prevents too high current destroying battery Disabled = 0 Enabled = 1
C17
INDICATE_ENABLE_AUTO_BATT_TEST Enable/Disable Automatic Battery Test Disabled = 0 Enabled = 1
C18
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TYPE OF INDICATION/SETTING DESCRIPTION ID
Disabled = 0 Enabled = 1
INDICATE_ENABLE_MODEM_DIAL Enable/Disable Modem Dialing Disabled = 0 Enabled = 1
C19
INDICATE_NUM_OF_LVDS Sets number of LVDs. Options: 1, 2 C20
INDICATE_LVD_HYSTERESIS Gap between the opening and closing voltage of an LVD
D01
INDICATE_INTENSITY Brightness of 7-segment display Options 1 (dim) to 7 (bright)
D02
INDICATE_CURRENT_OFFSET Current Offset. No effect = 0 Do it = 1 D03
INDICATE_RESET_NUM_OF_BOOTS Clears Reboot Counter. No effect = 0 Do it = 1
D04
INDICATE_FORCE_LVD1_OFF Opens LVD1. Normal = 0 Open = 1 D05
INDICATE_FORCE_LVD2_OFF Opens LVD2. Normal = 0 Open = 1 D06
INDICATE_SET_BATT_CAPACITY Show/set battery capacity, in Amp/hrs. The values permitted in this field are influenced by the High Capacity Battery flag (D15).
When value in D15 is 1, the Ah value in field D07 can be from 10 to 990, and must be a multiple of 10.
When value in D15 is 0, the Ah value in field D07 can be any value from 1 to 255.
D07
INDICATE_DIAL_MODEM Go dial modem = 1 D08
INDICATE_GO_AUTO_BATT_TEST Initiates an automatic battery test D09
INDICATE_CURRENT_LIMIT_VALUE Sets the value of battery current limit D10
INDICATE_EQUALIZING_PERIOD Number of days between automatic accelerated battery charging
D11
INDICATE_EQUALIZING_TOP_TIME Absolute max. time limit for performance of accelerated battery charging (hours) - charging aborts if time limit exceeded
D12
INDICATE_BATT_TEST_PERIOD Number of days between auto. battery tests D13
INDICATE_BATT_TEST_TOP_TIME Absolute maximum time limit for battery test (minutes) - test aborts if time limit exceeded
D14
HIGH CAPACITY BATTERY High capacity battery flag 1=high cap. batt. 0=low cap. batt.
When value is 1, the Ah value in field D07 can be from 10 to 990, and must be a multiple of 10.
When value is 0, the Ah value in field D07 can be any value from 1 to 255.
D15
Reserved for future use Reserved D16
OVERLOAD ALARM THRESHOLD Current reading that turns on the overload alarm, in Amperes.
D17
ENAB/DISAB OVERLOAD ALARM Enable/disable the overload alarm. 1=Enabled, 0=disabled
D18
Reserved for future use Reserved D19
Reserved for future use Reserved D20
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TYPE OF INDICATION/SETTING DESCRIPTION ID
Reserved for future use Reserved E01
Reserved for future use Reserved E02
Reserved for future use Reserved E03
Reserved for future use Reserved E04
Reserved for future use Reserved E05
Reserved for future use Reserved E06
Reserved for future use Reserved E07
Reserved for future use Reserved E08
Reserved for future use Reserved E09
Reserved for future use Reserved E10
Reserved for future use Reserved E11
Reserved for future use Reserved E12
Reserved for future use Reserved E13
Reserved for future use Reserved E14
Reserved for future use Reserved E15
Reserved for future use Reserved E16
Reserved for future use E17
Reserved for future use E18
Reserved for future use E19
Reserved for future use E20
INDICATIONS ONLY Press ESC button for 5 seconds.
SHOW_AC_VOLTAGE Input voltage F01
SHOW_AC_FREQ Input frequency F02
SHOW_DRY_OUT_1_STATUS Off = 0 On = 1 F03
SHOW_DRY_OUT_2_STATUS Off = 0 On = 1 F04
SHOW_DRY_OUT_3_STATUS Off = 0 On = 1 F05
SHOW_CONFIG_A DIP switch A F07
SHOW_CONFIG_B DIP switch B F08
SHOW_CONFIG_BACKPLANE Backplane config. Bit F09
SHOW_INDIVIDUAL_TEMPER_1 Temperature sensor #1 F10
SHOW_INDIVIDUAL_TEMPER_2 Temperature sensor #2 F11
SHOW_FAULT_L_STATUS_0 AC HIGH F12
SHOW_FAULT_L_STATUS_1 DC LOW F13
SHOW_FAULT_L_STATUS_2 DC HIGH F14
SHOW_FAULT_L_STATUS_3 INV/CONV FAULT F15
SHOW_FAULT_L_STATUS_4 OVER TEMPERATURE F16
SHOW_FAULT_L_STATUS_5 RECTIFIER FAIL F17
SHOW_FAULT_L_STATUS_6 DC LOWLOW F18
SHOW_FAULT_L_STATUS_7 LOAD BREAKER OPEN F19
SHOW_FAULT_H_STATUS_0 BATTERY CIRCUIT BREAKER OPEN F20
SHOW_FAULT_H_STATUS_1 AUX BREAKER OPEN F21
SHOW_FAULT_H_STATUS_2 AUX CONTACT OPEN F22
Gamatronic Electronic Industries Ltd. User Guide
POWER SYSTEM CONTROLLER MODEL SC1006 UNIVERSAL NET
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TYPE OF INDICATION/SETTING DESCRIPTION ID
SHOW_FAULT_H_STATUS_3 LVD1 DRIVEN OPEN F23
SHOW_FAULT_H_STATUS_4 LVD2 DRIVEN OPEN F24
SHOW_FAULT_H_STATUS_5 BATT1 TEST FAULT F25
SHOW_FAULT_H_STATUS_6 BATT2 TEST FAULT F26
SHOW_FAULT_H_STATUS_7 AC LOW F27
SHOW_GENERAL_STATUS_0 Battery Test in Progress F28
SHOW_GENERAL_STATUS_1 BATTERY CURRENT SIGN 1 = negative = discharging
F29
SHOW_GENERAL_STATUS_2 FLOATING/EQUALIZING Floating = 1 Equalizing = 0
F30
SHOW_GENERAL_STATUS_3 TEMPERATURE SIGN. Negative = 1 F31
SHOW_GENERAL_STATUS_4 Reserved F32
SHOW_GENERAL_STATUS_5 COMMAND REFUSED (as if an NOP has been received + flag set)
F33
SHOW_GENERAL_STATUS_6 BAD CHECKSUM RECEIVED (as if an NOP has been received + flag set)
F34
SHOW_GENERAL_STATUS_7 General Fault F35
SHOW_SPARE_STATUS_0 Battery #1 under test F36
SHOW_SPARE_STATUS_1 Reserved F37
SHOW_SPARE_STATUS_2 Reserved F38
SHOW_SPARE_STATUS_3 Reserved F39
SHOW_SPARE_STATUS_4 Reserved F40
SHOW_SPARE_STATUS_5 Reserved F41
SHOW_SPARE_STATUS_6 Reserved F42
SHOW_SPARE_STATUS_7 Reserved F43
SHOW_NUM_OF_BOOTS Number of reboots since reboot counter was last cleared
F44
SHOW_BATT_TEST_ELAPSED_TIME Time elapsed since start of battery test F45
SHOW_BATT_TEST_TIME_LEFT Time remaining until end of battery test F46
SHOW_EQUALIZING_ELAPSED_TIME Time elapsed since equalizing started F47
SHOW_EQUALIZING_MAX_TIME_LEFT Maximum time remaining in Equalizing Mode
F48
SHOW_RECTS_POWER Rectifier Watts F49
SHOW_LOAD_POWER Load Watts F50
SHOW_HARD_ID_0 Show 3 bytes of the Hard ID F51
SHOW_HARD_ID_1 Show 3 bytes of the Hard ID F52
SHOW_HARD_ID_2 Show 3 bytes of the Hard ID F53
SHOW_SPARE_ Reserved F54
SHOW_SPARE_ Reserved F55
SHOW_SPARE_ Reserved F56
SHOW_SPARE_ Reserved F57
SHOW_SPARE_ Reserved F58
SHOW_SPARE_ Reserved F59
SHOW_SPARE_ Reserved F60
Gamatronic Electronic Industries Ltd. User Guide
SC1006 UNIVERSAL NET ¡Error! Estilo no definido.
37
Figure 9: Main screen, PSM-DC 1006 monitoring software (48V syst.)
Gamatronic Electronic Industries Ltd. User Guide
POWER SYSTEM CONTROLLER MODEL SC1006 UNIVERSAL NET
38
Figure 10: Set Values tab, PSM DC 1006 monitoring software (48V syst.)
Figure 11: Set Alarms tab, PSM DC 1006 monitoring software (48V syst.)