CattronControl™LRC-M1 and LRC-L1 Operator Control Unit (OCU)
Remote Control SystemUser Manual
9M02-7634-A001-EN
CattronControl™ LRC-M1 and LRC-L1 User Manual
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9M02-7634-A001-EN Version 3
Revision History
Revision Date Changes
0.0 Initial Release
1.0 08/01/2014 Updated styles and combined LRC-M and LRC-L manuals
2.0 08/06/2014 Added LRC-M1 Declaration of Conformity and LRC-M1
Declaration of Incorporation
2.1 06/2015 Corrected document reference number
Updated Contact information
Updated headings
3.0 07/29/2019 Document rebranded and contact information updated.
Added 869MHz narrow band
Added DOC
Any information furnished by Cattron™ and its agents is believed to be accurate and reliable. All specifications are subject to change without notice. Responsibility for the use and application of Cattron products rests with the end user since Cattron and its agents cannot be aware of all potential uses. Cattron makes no warranties as to non-infringement nor as to the fitness, merchantability, or sustainability of any Cattron products for any specific or general uses. Cattron Holdings, Inc., or any of its affiliates or agents shall not be liable for incidental or consequential damages of any kind. All Cattron products are sold pursuant to the Terms and Conditions of Sale, a copy of which will be furnished upon request. When used as a tradename herein, Cattron means Cattron Holdings, Inc. or one or more subsidiaries of Cattron Holdings, Inc. Cattron™, corresponding logos, and other marks are trademarks or registered trademarks of Cattron Holdings, Inc. Other marks may be the property of third parties. Nothing herein provides a license under any Cattron or any third party intellectual property right.
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Contents
Revision History .................................................................................................................................................................................. 2
1. Introduction ................................................................................................................................................................................... 5
1.1 Terminology ....................................................................................................................................................... 5
2. Safety Instructions ....................................................................................................................................................................... 6
2.1 Symbols and Warning Definitions ...................................................................................................................... 6
2.2 General Safety Information ................................................................................................................................ 6
2.3 Intended Purpose Use ....................................................................................................................................... 7
2.4 Improper Use ..................................................................................................................................................... 7
2.5 Operation of OCUs and MCUs with Identical System Addresses ...................................................................... 8
3. General ......................................................................................................................................................................................... 9
3.1 Radio Transmission ........................................................................................................................................... 9
3.1.1 Continuous Transmission .............................................................................................................................. 9 3.1.2 Radio Interference .......................................................................................................................................... 9 3.2 System Address ................................................................................................................................................. 9
3.3 System Parameters .......................................................................................................................................... 10
4. OCU ............................................................................................................................................................................................. 11
4.1 General ............................................................................................................................................................ 11
4.2 Display Option .................................................................................................................................................. 12
4.3 Before Turning On ............................................................................................................................................ 12
4.4 Turning the OCU On (Standard) ...................................................................................................................... 12
4.5 Turning the OCU On with STOP Switch Verification ........................................................................................ 13
4.6 Turning the OCU Off ........................................................................................................................................ 13
4.7 STOP Command .............................................................................................................................................. 13
4.8 Status LED ....................................................................................................................................................... 13
5. Features ...................................................................................................................................................................................... 14
5.1 Automatic Turn-Off ........................................................................................................................................... 14
5.2 Enable / Push to Operate (PTO) Switches ....................................................................................................... 14
5.3 Vigilance ........................................................................................................................................................... 14
5.4 Tilt .................................................................................................................................................................... 14
5.5 IR Enable ......................................................................................................................................................... 15
5.6 Delayed Shutoff ................................................................................................................................................ 16
5.7 User Authorization ............................................................................................................................................ 16
5.8 Multi Address Capability (MAC) ....................................................................................................................... 16
5.9 Sub Address Capability (SAC) ......................................................................................................................... 17
5.10 D-TDMA ........................................................................................................................................................... 19
5.11 Frequency Scanning ........................................................................................................................................ 21
5.12 Talkback and LCD Display Resolution ............................................................................................................. 21
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6. Battery Management ................................................................................................................................................................. 23
6.1 Connecting the Battery Charger ....................................................................................................................... 23
6.2 Charging the Battery ........................................................................................................................................ 24
6.3 Charging Status Indication via LEDs................................................................................................................ 24
6.4 Charging and LED Indication ........................................................................................................................... 24
7. RF Channel Change ................................................................................................................................................................. 25
7.1 Working Principle ............................................................................................................................................. 25
7.2 Activating the Programming Mode ................................................................................................................... 25
7.3 Changing the RF Channel ................................................................................................................................ 26
7.4 MCU Synchronization to New RF Channel ...................................................................................................... 26
7.5 Reactivating the TransKey RF Channel ........................................................................................................... 26
7.6 Indication of the Interference Field Strength .................................................................................................... 26
7.7 Automatic RF Channel Selection Feature ........................................................................................................ 27
7.8 Channel Tables ................................................................................................................................................ 28
8. Technical Data ........................................................................................................................................................................... 35
8.1 LRC-L1 Specifications ...................................................................................................................................... 35
8.2 LRC-M1 Specifications ..................................................................................................................................... 37
Compliance ........................................................................................................................................................................................ 39
CE Declaration of Conformity........................................................................................................................... 39
9. Troubleshooting ......................................................................................................................................................................... 40
9.1 OCU Error Indication ........................................................................................................................................ 40
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1. Introduction
This manual includes general information concerning the operation of the radio remote control Operator Control
Unit (OCU) series LRC-M1 and LRC-L1. The information is of a general nature and does not include system-
specific data. System-specific data is provided in the technical documentation accompanying the delivery of the
system.
For Information pertaining to the matching Machine Control Unit (MCU), please refer to the separate MCU user
manual.
1.1 Terminology
The following represents important acronyms used in this document:
• OCU - Operator Control Unit, commonly referred to as a transmitter
• MCU - Machine Control Unit, commonly referred to as a receiver
LRC-L1 LRC-M1
Figure 1: Typical OCU
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2. Safety Instructions
2.1 Symbols and Warning Definitions
Warning against hazardous situation
Warning against electrical voltage
DANGER Calls attention to a dangerous situation with high risk; severe injuries or death possible.
WARNING Calls attention to a situation with medium risk; severe injuries possible.
CAUTION Calls attention to a situation with low risk; injuries or damage to the device possible.
Note: Calls attention to important information.
2.2 General Safety Information
• Persons under the influence of drugs, alcohol and/or other medicine that impairs reaction may not
assemble, disassemble, install, put into operation, repair, or operate the product.
• All conversions and modifications of an installation or system must conform to the relevant safety
requirements. Only qualified, authorized personnel may perform work on the electrical equipment, in
accordance with the relevant safety requirements.
• In the event of malfunction and/or visible defects or irregularities, the product must be stopped, switched off,
and the relevant master switches also switched off.
WARNING
Observe the statutory regulations and directives applicable for the intended purpose, e.g.:
• Accident prevention regulations
• Safety rules and directives
• Standards
• Generally applicable statutory and other binding regulations for accident prevention and
environmental protection, and general safety and health requirements.
!
!
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• Keep the operating manual permanently accessible at the place of product use.
• The personnel assigned to work on/with the product must have read and understood this operating manual
and the safety instructions.
• The safety instructions must, if necessary, be supplemented by the user with instructions concerning the
work organization, work sequences, qualified personnel, etc.
• All repairs made during the warranty period must be carried out by the manufacturer or appointed
authorized service center; failure to comply will invalidate the warranty.
• Only trained personnel may perform maintenance and repair on the product.
• All repairs should be carried out in a suitably clean, static-safe environment, free from contaminants such
as metal filings, water, oil, etc.
• It is the user’s responsibility to ensure that the product is always maintained in a good operating condition
and that all applicable safety requirements and regulations are observed.
• Product modifications may not be carried out without the consent of the manufacturer.
• Original spare parts from the manufacturer must be used.
• Carry out periodic inspections and/or maintenance either as required by law or as prescribed in the user
manual within the required intervals.
2.3 Intended Purpose Use
The product must only be used in a good condition, by instructed personnel, and subject to the compliance with
the applicable safety and accident prevention regulations. Use only for the intended purpose and with compliance
to the contents of this user manual.
2.4 Improper Use
Certain use and work on/with the product is not permitted. In particular, improper use consists of the following
actions:
• Tampering with electrical equipment
• Power supply connections deviating from the voltage/frequency data on the type plate
• Work on live components
• Incorrect operation
• Unauthorized removal of covers
• Insufficient maintenance
• Failure to observe the operating temperature range
CAUTION
Damage to the device:
The unit is rated at IP65. It is not rated to be submerged in water.
Neglecting the above can result in danger for life and limb and/or cause physical damage to the product or the
environment.
!
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2.5 Operation of OCUs and MCUs with Identical System Addresses
To ensure safe operation, OCUs and MCUs are uniquely paired by means of an identical system address. This
system address will only be assigned once by the manufacturer.
CAUTION
Conflict of Addresses:
The user must ensure that the system address is used as designed and intended for a single
system.
The system address is marked on the master TransKey; the OCU and intended MCU address
must match.
In the event of a breach of this undertaking, the user is liable for any resulting damage/loss and
shall indemnify the manufacturer against all third-party liability claims.
!
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3. General
With an OCU and a matching MCU, a machine such as a crane or vehicle can be remotely radio controlled,
avoiding the need for a wired connection between the human interface and the controlled device. A number of
different control elements are integrated into the OCU housing so that commands to the device are securely
encoded into a radio transmission. The MCU is then able to receive this transmission, securely decode these
commands, and provide suitable interfaces to drive the machine.
3.1 Radio Transmission
The transmission between the OCU and MCU is performed by means of radio communication. With regard to the
actual radio frequency that is used, there are several radio frequency bands available. A specific RF channel must
be selected within the respective frequency band. Depending on the frequency band, a certain number of RF
channels are available. For details regarding the available standard RF channels please refer to the Channel
Tables and Technical Data sections of this document. Other frequency bands may be designated and deployed.
The OCU and MCU must operate on the same RF channel in order to be able to communicate.
3.1.1 Continuous Transmission
Typically, transmission is continuous and the MCU uses this as part of the information required to maintain the
safety relays in an active state. If the MCU does not receive a valid telegram in this mode for a certain period of
time (defined as PNH-Time), it automatically turns off; i.e., safety relays and command relays open. Depending on
the application, the PNH-Time varies from 0.5 s to 2.0 s.
In order to ensure optimum communication between the OCU and the MCU in this mode, ideally operate the OCU
with line of sight to the MCU or its antenna at all times. Avoid total shielding by metallic obstructions.
In certain other configurations, the MCU may be enabled to operate without loss of safety in the absence of an RF
signal, much as a safety PLC will do. Such applications are strictly defined.
3.1.2 Radio Interference
Signals from other RF-emitting sources might interfere with the radio communication between the OCU and MCU.
If the radio link is affected by these sources, changing the RF channel or even the RF band might be necessary.
3.2 System Address
In an industrial radio remote control system, each OCU/MCU pair shares a common, unique system address. This
system address is contained in every telegram sent by the OCU and is checked by the MCU every time a RF
signal is received. The MCU processes a command only when the address in the telegram and the address
stored in the MCU match. This is a safety measure to ensure that the MCU will act only upon its assigned OCU.
The system address is stored in the TransKeys; please see Section 0.
Figure 2: OCU TransKey (black)
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3.3 System Parameters
The system parameters, including the system address and the selected RF channel, are set by programming the
TransKey. This is a removable radio frequency identification device (RFID) located inside the OCU and MCU. It is
programmed by the manufacturer.
Note: Please refer to the separate 'Configuration Data' documents for the specific system parameter settings
of your system.
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4. OCU
4.1 General
The LRC OCU is versatile and can be highly customized to meet the operational requirements of many different
applications. For this, a variety of control elements (joysticks, paddles, push buttons, switches, etc.) are available
to tailor an OCU layout for the individual application.
Note: For the system-specific OCU layout for your application, please refer to the separate engineering
drawings you received with the delivery of the system.
1 Stop Switch 2 LED/Push-button Panel 3 Joystick 4 Push Button Horn 5 Key switch: ON/OFF 6 Carrying Hook 7 Toggle Switch (maintained) 8 Toggle Switch (momentary) 9 Toggle Switch (maintained) 10 Push-button 11 Push-button
Figure 3: LRC-L1 Layout Example
1 Master TransKey 2 TransKey Hollow 3 Battery and Programming
Contacts 4 Battery Latch
Figure 4: LRC Battery Compartment
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1 Stop Switch 2 Push Button 3 Key Switch: ON/OFF 4 Push Button Horn 5 Joystick 6 Status LED 7 Graphic LCD (optional)
Figure 5: LRC-M1 with LCD
4.2 Display Option
The OCU can be optionally equipped with a graphic display. This can be used to indicate certain OCU parameters
such as the operating frequency, internal error messages and battery status, and/or to display feedback data that
transmits back from the corresponding MCU (in this case, it functions as a transceiver, receiving and transmitting
data). For further information regarding the feedback option, please refer to the system-specific information
provided with your system.
4.3 Before Turning On
1. Verify that the TransKey (black) is placed in the TransKey hollow inside the battery compartment.
2. Insert a fully charged battery.
Note: Batteries are shipped uncharged.
4.4 Turning the OCU On (Standard)
1. Release the STOP switch and ensure all motion controls including joysticks are at neutral.
2. Turn the key switch to the ON position 'I'.
3. The Status LED briefly lights red, then flashes green.
4. The OCU is turned on.
Note: After the OCU is turned on, the safety relays in the MCU energize and the MCU is able to respond to
commands initiated by the OCU.
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4.5 Turning the OCU On with STOP Switch Verification
(this feature is only made available if requested at time of order)
The OCU can be configured so that in order to turn on the unit, the STOP switch must be activated once before
the OCU goes into operation.
1. Release the STOP switch and ensure all motion controls including joysticks are at neutral.
2. Turn the key switch to the ON position 'I'.
3. The Status LED lights red.
4. Activate the STOP switch (the Status LED lights orange) and then release within 10 seconds.
5. The Status LED flashes green.
6. The OCU is turned on.
Note: After the OCU is turned on, the safety relays in the MCU energize and the MCU is able to respond to
commands initiated by the OCU.
4.6 Turning the OCU Off
1. Turn the OCU off by bringing the key switch into the '0' position.
Note: After the OCU turns off, the safety relays and all other relays (in the case of a relay interface) in the
MCU de-energize and the MCU is unable to respond to any commands initiated by the OCU.
In certain application, the MCU can optionally be configured to operate as a safety PLC and continue to
control the machine in the absence of an online OCU. Conditions will be strictly defined.
4.7 STOP Command
In the event of a dangerous situation, a STOP command can be initiated by pressing the STOP switch.
1. Press the STOP switch.
2. MCU turns off.
3. OCU turns off.
Note: After pressing the STOP switch, the safety relays and all other commands in the MCU de-energize and
the MCU is unable to respond to any commands initiated by the OCU. The OCU unit is turned off.
4.8 Status LED
The status LED indicates the operation mode and error messages.
Table 1: Status LED Indications
Status LED Condition Corrective Action
Flashes green at 2.0 s intervals Normal mode No action required
Flashes red at 2.0 s intervals Error indication Refer to Section 9: Troubleshooting
Flashes red at 0.5 s intervals Pre-warning of low voltage Change the battery within 10 minutes
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5. Features
5.1 Automatic Turn-Off
The OCU turns off automatically when the following events occur:
• Battery discharge protection (battery low)
• Auto Off timeout expires (pre-set between 30 seconds to 30 minutes)
• Internal failure (hardware or software)
5.2 Enable / Push to Operate (PTO) Switches
Push to Operate is an optional feature that requires the user to press a switch before a function or set of functions
are made active. This can be applied to any controller and is implemented in the MCU software.
When a switch must be pressed down while the joystick is in use, operators may find it physically demanding. For
this reason, the PTO button is normally used as an enable to start the motion; that is, the button must be pressed
before a motion is activated, but once the motion is active the button does not need to be maintained. Once the
motion is returned to neutral, there is an approximately 2 second delay (during which the motion can be
reactivated) before the button once again has to be pressed.
Often, a client will choose not to use the buttons at the end of the joysticks, but instead use a button or toggle on
the controller that must be pressed just before commencing to activate a motion. It achieves the same goal but
typically at lower cost.
Because it is used in logic, the enable function on a joystick, button, or toggle can be used to enable any single or
set of functions on the controller.
5.3 Vigilance
The Vigilance function is an optional feature and is another method of maintaining the system in an active state; it
is available for any LRC controller.
This method requires the operator to repeatedly activate a switch before a software timer expires.
As an example, an operator may be required to activate a toggle switch every 30 seconds or less. If the operator
fails to reset the toggle switch, a warning is issued for 10 seconds. During this period the operator can still reset
the vigilance function, but if this period times-out without resetting, the OCU shuts down.
The Timeout time is configurable for any time between 1 second and 11 minutes, in 1 second increments.
The Warning period is configurable between 0 and 59 seconds.
Note that this feature is more closely related to machine and vehicle operation than crane use.
5.4 Tilt
The Tilt function is an optional feature and a safety function designed to shut down the OCU if it is tilted (for
example, if an operator falls over). It is available for any LRC OCU.
The Tilt angle may be configured for angles between 30 and 60 degrees in 5 degree increments.
The Tilt time delay (the period for which the unit can remain tilted before a penalty) is configurable between 0 and
30 seconds. During this period the OCU issues an audible warning of impending penalty.
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There is a Tilt time extension that can be configured, if required, that allows the operator to extend the tilt time by
another configurable time of up to 30 seconds.
Typically, the tilt settings are configured so that if an angle greater than 45 degrees is exceeded for more than 5
seconds, the unit shuts down.
If an operator has some process where he does bend over, the Tilt time extension is added and set for 30
seconds to allow the process to be completed without a penalty.
Note that this feature is more closely related to machine and vehicle operation than crane use.
5.5 IR Enable
The IR Enable function is an optional feature.
This feature requires the OCU to be taken within a closely defined zone of coverage from an IR (infrared)
transmitter before the OCU can be enabled.
The enable zone is typically used to ensure that an OCU is not switched on before an operator has moved into a
region where it is safe to operate the crane or machine. Specifically, it ensures that the OCU cannot be enabled
when it is away from a crane or machine. An example of this function is to prevent a situation whereby the OCU
radio can communicate through walls to the crane or machine, but it is inadvertently operated in an adjacent room
such as a cafeteria or maintenance workshop.
The IR transmitters shown below are mounted either singly or in multiples as required to achieve the required IR
coverage zone.
Figure 6: IR Enable Components
The IR beam is specifically encoded to address only the target system and is fully secure.
The OCU has an IR sensor mounted on it and the LRC-M and LRC-L can have the sensor in any location. The
product shown above right has the sensor to the right of the Stop switch.
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5.6 Delayed Shutoff
The Delayed Shutoff function is an optional feature.
Delayed Shutoff enables a controlled OCU shutdown mode that allows a user to switch from remote operating
mode to a local operating mode without the machine going into a shutdown.
For example, this allows a diesel engine driven hydraulic machine to continue to run for this short transfer period
rather than the operator going through a machine/engine start sequence to get it back into manual mode. This is
typically required when the OCU is left in a storage location remote from the vehicle cab; one example may be
use in underground mining machines.
In this mode, an OCU remains active for a predefined time delay between 30 seconds and 5 minutes after the
ON/OFF switch turns off. During this “DSO period”, all OCU controls are disabled except for the STOP and TILT
functions.
The OCU turns off when one of the following events is true:
• The DSO period expires
• The STOP button is pressed
• A TILT event occurs (if configured)
5.7 User Authorization
The User Authorization feature is an option for LRC-M and LRC-L OCUs.
This feature requires the system to be enabled by the insertion of an ID card into a receptacle on the OCU. This
receptacle reads the card and compares the ID card to a list of pre-defined users. If the card is current, the OCU
sends a signal to the MCU that the user is authorized and enables control.
5.8 Multi Address Capability (MAC)
MAC is an optional feature and allows up to 15 MCUs to be controlled by up to seven OCUs.
Some simple examples are below; each MCU is equipped with a number of lights outputs to indicate the current
status.
Multi Control Mode Single Control Mode
Figure 7: MAC Configurations
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REQUEST Function
MCUs are requested by an OCU. This is performed using a separate Request button in conjunction with the
position of an MCU selection on the OCU. The selection can be linked to one or more MCUs.
LRC OCUs have a rotary MCU selection switch.
All of the MCUs assigned to a selected switch position are always requested together.
MCUs assigned to an OCU as a result of a request remain permanently assigned to that OCU until released.
Additional MCUs may be requested by that OCU. Selected MCUs cannot be accessed by other OCUs.
Once one or more MCUs are requested, it is possible to switch between the various available combinations of
MCUs by altering the selection on the OCU.
RELEASE Function
The Release button is used to release the MCU(s) currently selected by an OCU.
An OCU can only release MCUs which it has previously requested. Conversely, MCUs not assigned to a specific
OCU cannot be released by that OCU.
One or multiple MCUs can be released at the same time. The MCU can be set to automatically release.
5.9 Sub Address Capability (SAC)
The SAC optional feature is available for the LRC-L OCU and the MMCU4 or CT24 MCUs.
It allows one OCU to have secure and simultaneous selection of up to four MCUs from a larger number of MCUs.
With this feature, there is no possibility that any two OCUs can attempt to select the same MCU at the same time.
For example, this feature allows the sequential selection of MCUs in a process flow. Keys 1 and 2 might represent
hoist units 1 and 2, Keys 3 and 4 may represent sequential bridges, and the spare keys may represent further
sequential bridges.
Each of the selected MCUs can be enabled or disabled by an associated toggle switch.
There are three versions of SAC defined in the following ways:
• One OCU may select 4 out of 512 MCUs
• One OCU may select 3 out of 4096 MCUs
• One OCU may select 2 out of 262,144 MCUs
SAC TransKeys
The identities of the selected MCUs are input by a secure, red, RF TransKey inserted into a dual holder on the left
and right faces of the OCU. An OCU has the option of two or four slots and either two or four associated toggle
switches.
Two storage slots on the rail can hold unused keys.
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Sub Address Key Read Status
The sub address key read status is shown on both the status LEDs and the optional LCD (if fitted to the OCU).
Figure 8: SAC LED Status Indications
• Empty Socket: The corresponding LED remains off
• Successful Reading: The corresponding LED flashes green
• Reading Failure: The corresponding LED flashes red
OCUs equipped with an LCD will display the actual sub addresses being read and the current selection status on
lines 2 and 3.
Figure 9: SAC LCD Status Indications
Deselected MCUs (toggle switch OFF) are shown in normal text (black text on a white background).
Selected MCUs (toggle switch ON) are shown in inverted text (white text on a black background).
The MCU may store up to five sub addresses and locks onto the first valid sub address found. This feature allows
one MCU to be able to respond to a maintenance or spare TransKey (in the event of loss of the primary sub
address TransKey) without ever having to duplicate a TransKey sub address on one site. For example, an MCU
may be programmed to respond to SA, 1, 101, 201, 301, 401, 501.
The Sub Addresses are stored in the MCU primary TransKey.
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Sub Addressing Operational Procedure
1. Ensure the battery has sufficient charge.
2. Verify the OCU is in good condition.
3. Select the required Sub Address TransKeys to match the machines to be controlled. Insert these
TransKeys into the TransKey retainers on the left and right faces of the OCU.
4. Switch the sub address selection switches to the OFF positions.
5. Ensure the control levers are in the neutral position; controls in the off-neutral position will prevent
system start.
6. Ensure the E-Stop switch is released.
7. Ensure the Key/ON/OFF switch is turned ON.
8. The status LED should now flash green; however, if D-TDMA is in use, the status LED gives two
rapid orange flashes every second until the OCU finds and locks onto a free TDMA slot. Usually, this
takes less than a few seconds. The LED flashes green afterwards. If the status LED is flashing red or
not flashing at all, refer to Section 9: Troubleshooting.
9. Press and hold the reset button until all the machines reset as indicated by their individual status
lamps (a visible lamp positioned on the machine that indicates it is powered and reset, ready for use).
This can take up to approximately 5 seconds.
10. Switch on each of the sub address selection switches one at a time and test a basic function (such as
Horn) to ensure the required and expected machine is being commanded. When this is complete and
all machines verified, the required machine selection can be made and operation commenced.
Deselection of any machine is possible at any time by switching off the control toggle switch associated with that
sub address.
Removing any sub address TransKey disables that machine within five seconds. An alternate key could be
inserted without switching off the OCU, but the reset switch would need to be pressed again to capture that
machine, after which it should once again be verified that the correct machine has been activated.
5.10 D-TDMA
TDMA is an optional feature that allows many systems to operate on the same frequency, either to minimize the
number of RF licenses required on a large site or to make it possible to implement a system that requires many
OCUs to be on the same frequency at the same time.
It is possible to have MCUs use both TDMA and frequency scanning when implementing a large or complex
system comprising many MCUs.
As more TDMA slots allocate to a frequency, the system response to a switch change becomes slower, so a
balance between allocated TDMA slots and required response times is needed.
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Table 2: TDMA Response Time
# OCU per Channel TDMA Cycle Time
3 140 ms
4 175 ms
5 210 ms
6 245 ms
7 280 ms
8 315 ms
OCU Slot Acquisition Time
This time is measured from OCU power-up to the MCU being online.
< 5.1 sec for 265 ms cycle times
< 4.6 sec for 150 ms cycle times
When operating D-TDMA and after switching on the OCU, the status LED gives two rapid orange flashes every
second until the OCU has found and locks onto a free TDMA slot. This typically takes less than a few seconds
after which it should flash green.
If an optional LCD display is fitted, this will also give additional TDMA status indication, as seen in the following
figure.
Figure 10: D-TDMA LCD Status Indications
At power-up, the first telegram transmission is declared “Slot #1”. Its index would be set to “C” (for Current) and it
displays on the left side of LCD screen. This slot timing would be set as reference and kept in memory as long as
the radio is transmitting telegrams. All other slots are shown following this reference point; free slots are shown as
normal text (black text on a white background) and occupied slots are shown as inverted text (white text on a
black background).
Note that all OCUs are running asynchronously, so slot 1 on one OCU may not be the same as slot 1 on any
other OCU.
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5.11 Frequency Scanning
Frequency Scanning is an optional feature that allows one MCU to scan multiple frequencies (the current limit is
12). This feature allows one MCU to operate from any one out of many different OCUs transmitting on different
frequencies.
Frequency scanning may be combined with TDMA, and MAC or SAC.
This feature is likely to be used where TDMA is not needed, or where the number of OCUs on air exceeds the
TDMA allocation per frequency.
This feature is available on all MCUs.
For example, an MCU running frequency scanning of eight frequencies each running with OCUs running TDMA
with seven slots could seek and lock onto a valid address from 56 (= 8 X 7) OCUs.
5.12 Talkback and LCD Display Resolution
Talkback is an optional feature.
Talkback may be directed to LEDs, the buzzer, and (if fitted) the LCD display and backlighting as well.
For LRC-M and LRC-L OCUs fitted with the optional LCD display, this display has a resolution of 128 x 64 pixels
and is divided into eight lines. The first and last lines are reserved for system status messages, and the remaining
six lines may be used by the user for talkback information as text, graphics, or both.
Customers have the option of having the talkback configured for them, or the flexibility of a tool to be able to
program and customize the talkback themselves.
Group Bits: LB8Bit Pattern 0 LED1, LED3Bit Pattern 1 LED2, LED4, LED7, LED8, LED9, LED10
Horn Button Released
Horn Button Pressed
Legend:
R – Red LED G – Green LEDO – Red & Green LED (Orange) S – Status LEDW – White (LED is Off)
WWSRR
OOSGG
Figure 11: Talkback to LEDs
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9M02-7634-A001-EN Version 3
txeT ETM_ 1-TS _1_txeT seM_ egas __2_SETT s2-T egas __3_txeT seM_ TSET __3-txeT seM_ egas __5_
System Status Icons
System Status Messages
_
4321 8765 1211109 16151413
1
2
3
4
5
6
8
7
Figure 12: Talkback as Text to LCD
xeT ETM_ 1-TS _1_txeT seM_ egas _SETT s2-T gas _tx seM_ SET _tx seM_ egas __5_
System Status Icons
System Status Messages
_
4321 8765 1211109 16151413
1
2
3
4
5
6
8
7
2
3
1
Figure 13: Talkback as Graphics to LCD
Full information can be found in the Feedback Logic Configuration Utility Manual, Part Number 9M02-7640-A008.
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6. Battery Management
6.1 Connecting the Battery Charger
The charger is set into operation by connecting and inserting the battery into the charger cradle.
• Connect the charger to the charger cradle by inserting the plug on the secondary side of the charger into
the matching socket in the charger cradle.
• Insert the rechargeable battery into the cradle. During the charging process the LED lights red. If the battery
is charged, the LED lights green.
Figure 14: Charger Unit with Exchangeable Cords
1
2
3
Figure 15: Cradle [2], Battery [3] + Charger Unit
DANGER
Electric Shock:
Do not open the charger. Protect the charger against moisture and rain in order to exclude a fire
hazard or an electric shock. Only operate the charger in dry indoor spaces.
Do not use the charger if the housing or mains plug is damaged.
USA
UK
-+Positive inner
!
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6.2 Charging the Battery
WARNING
Possible explosion hazard:
Only use original batteries from the manufacturer (Nickel / Metal Hydride [NiMH] batteries). Other
batteries may explode when charged with this device.
Check the charger periodically during a charging cycle.
Only charge the batteries in a fire-safe location to protect the area in case the cells fail during the
charge cycle.
Charge only when the ambient temperature is below 40°C.
• The charger is set into operation by connecting the battery to the charger; i.e., inserting the battery into the
charger cradle.
• The LED lights yellow before the quick-charge process starts, and then it changes to red while charging.
• When the battery is almost fully charged, the charger changes from quick-charge mode to a mode with a
reduced charging voltage before switching to trickle-charging mode.
• After the quick-charging mode process completes, the LED flashes green with intermittent red pulses.
• When the battery is fully charged and the charger switches to trickle-charging mode, the LED lights green.
• The battery is now fully charged and can be used. Take the battery out of cradle after charging.
Notes: The battery charging time can take up to 4 hours.
Batteries may only be charged at a maximum ambient temperature of 40°C.
6.3 Charging Status Indication via LEDs
Table 3: Charger Status LED Indications
Indication Description
Yellow Battery not connected
Battery initialization and analysis
Red Start quick-charging mode
Green with red pulses Intermediate mode
Green Ready / trickle-charging mode
Green/red alternating Error
6.4 Charging and LED Indication
After connecting to the main power supply, the LED flashes red during the first seconds and changes to yellow
when the initialization and the analysis begin.
When a battery is connected, the actual charging begins after a few seconds, when the LED turns red.
Note: See the User manual enclosed with the Fast charger.
!
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7. RF Channel Change
If your system is configured to use one of the standard license exempt frequency bands, you will have the option
of selecting a new frequency; this may be required in order to ensure interference-free operation under some
circumstances. Changing the RF channel can become necessary due to interference or if a RF channel is already
in use by another system. The RF channel can be changed either by reprogramming the TransKey (external
programming) or by using the RF channel selection feature of the OCU unit as described below.
Note: The features described in this section are available with standard OCUs furnished with a key switch and
horn push-button. Should these control elements not be available, these features may not function in
part or entirely.
7.1 Working Principle
The operating RF channel of the OCU can be changed using the push buttons in the LED/push button panel. For
this, first bring the OCU into Programming Mode as below. The respective RF channels are displayed by the four
LEDs located to the left and right of the STATUS LED. Each RF channel is assigned a specific color code, shown
in the 'RF Channel Tables'.
Figure 16: LED / Pushbutton Panel
7.2 Activating the Programming Mode
Before the RF channel can change, the OCU must be brought into Programming Mode.
1. With the OCU turned off, hold the Horn push-button down and turn the unit on by turning the key
switch.
2. Hold the Horn push-button for approximately 5 seconds until the Status LED changes from
permanent red to fast blinking red.
3. Release the Horn push-button within 3 seconds.
4. The OCU is now in Programming Mode. The currently selected RF channel is indicated via the four
LEDs on the panel.
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7.3 Changing the RF Channel
1. Bring the OCU unit into Programming Mode. If it is already in Programming Mode, continue with the
next step.
2. The actual RF Channel is displayed by the LEDs; see the RF Channel Tables.
3. Select the desired RF Channel by pressing the buttons. For fast hold, depress for more than two seconds.
4. Select and save the RF Channel with the Enter button .
5. The Status LED changes from blinking red to continuous red.
6. Turn the OCU off with the key switch.
7.4 MCU Synchronization to New RF Channel
The OCU features an automatic RF channel synchronization. It automatically finds its corresponding OCU and
adjusts its RF channel to the new channel.
Note: After the first OCU activation following a RF channel change, it can take up to one minute before the
MCU adjusts itself to the new RF channel and is ready for operation.
7.5 Reactivating the TransKey RF Channel
The RF channel programmed by the factory remains stored in the TransKey and can be reactivated if required.
1. Bring the OCU into Programming Mode. If it is already in Programming Mode, continue to the next
step.
2. Holding both and pressing reactivates the RF Channel stored in the TransKey.
3. The STATUS LED changes from blinking red to permanent red. All other LEDs are off.
4. In order to take the OCU into operation, turn it off and on again.
5. It now transmits on the RF channel stored in the TransKey.
7.6 Indication of the Interference Field Strength
This is a helpful feature to determine whether other systems are transmitting on the currently selected RF
channel. The level of interference, i.e., the field strength, of such systems can be indicated. The interference field
strength is displayed via the Status LED in combination with the internal acoustic buzzer signal.
In the event that there is interference on the selected RF channel, it is recommended that a different, free RF
channel is selected.
Note: This feature is not available for the 869 MHz frequency band.
1. Bring the OCU into Programming Mode. If it is already in programming mode, continue to the next
step.
2. Briefly press the HORN push-button.
3. If there is any interference, the severity is indicated by a combination of a STATUS LED and an
internal buzzer sound for three seconds. There are three levels of interference, as shown in the
following table.
4. Should there be no interference, exit the programming mode by turning the unit off.
EnterEnter
EnterEnter
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Table 4: RF Channel Status LED indication
Status LED Buzzer Interference Connective Action
Green No sound Low None required
Orange No sound Medium If possible, change the RF channel
Red Sounding High Change the RF channel
Note: The field strength received from other OCUs should be as low as possible in order to avoid possible
interference of the radio path between the OCU and the MCU.
7.7 Automatic RF Channel Selection Feature
The OCU has a feature that allows automatic scanning of all RF channels in the respective frequency range for
interference. During the scan process, the OCU performs field strength measurements of each individual channel
and creates an internal, virtual channel proposal list. Upon completion of the scan process, the RF channel with
the lowest interference field strength is displayed (on the four LEDs) as the recommended channel. Either this
recommended RF channel can be accepted, or the next channel on the list of proposed channels can be
selected.
Note: This function is not available for the 869 MHz frequency band.
1. Bring the OCU into Programming Mode. If it is already in programming mode continue to the next
step.
2. Press the HORN push-button for five seconds until a sound is audible, and then release it.
3. RF Band scanning starts, indicated by the STATUS LED changing from red to blinking orange.
4. The RF channel LEDs change according to the RF Channel Tables.
5. Once the scanning process is completed and a sound is audible, the STATUS LED changes to
blinking green.
6. The RF channel with the lowest interference is displayed. It can be accepted and saved by pressing
the Enter button , or an alternative option can be selected as shown below.
7. STATUS LED changes from blinking green to continuous red.
8. Turn off the OCU.
Alternative option:
1. View the list of recommended RF Channels with the buttons.
2. Select an appropriate RF channel; confirm and save by pressing .
3. STATUS LED changes from blinking green to continuous red.
4. Turn off the OCU.
EnterEnter
EnterEnter
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7.8 Channel Tables
Depending on the country or region of the world, the system must operate in an application-approved RF
frequency band. The following are the available frequency bands with the available RF channels in each
frequency band. The RF channels are color-coded to display them via the four LEDs located on the push-button
panel of the OCU.
Note: When changing the RF channel, ensure that country-specific regulations regarding frequency range
and channel are observed
Table 5: RF Channel Table 418/419 MHz Band
Channel Frequency (MHz) 1 2 3 4
1 418.9500 - - green green
2 418.9750 - - green orange
3 419.0000 - - orange -
4 419.0250 - - orange red
5 419.0500 - - orange green
6 419.0750 - - orange orange
7 419.1000 - red - -
8 419.1250 - red - red
9 419.1500 - red - green
10 419.1750 - red - orange
11 419.2000 - red red -
12 419.2250 - red red Red
13 419.2500 - red red Green
14 419.2750 - red red Orange
STATUS1 2 1 2
STATUS1 2 1 2
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Table 6: RF Channel Table 447 MHz Band
Channel Frequency (MHz) 1 2 3 4
1 447.8625 - orange - red
2 447.8750 - orange - green
3 447.8875 - orange - orange
4 447.9000 - orange red -
5 447.9125 - orange red red
6 447.9250 - orange red green
7 447.9375 - orange red orange
8 447.9500 - orange green -
9 447.9625 - orange green red
10 447.9750 - orange green green
11 447.9875 - orange green orange
Table 7: RF Chanel Table 869 MHz Wide Band
Channel Frequency (MHz) 1 2 3 4
0 * 869.850 - - - -
1 869.800 - - - red
2 869.900 - - - green
3 869.535 - - - orange
(*)This channel should not be used if existing systems are already operating on channels 1 and/or 2 and are in
close proximity.
STATUS1 2 1 2
STATUS1 2 1 2
STATUS1 2 1 2
STATUS1 2 1 2
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Table 5: RF Channel Color Code Table for 869 MHz Narrow Band
LED Color
Channel Frequency (MHz) 1 2 3 4
1 869.7000 - - - red
2 869.7125 - - - green
3 869.7250 - - - orange
4 869.7375 - - red -
5 869.7500 - - red red
6 869.7625 - - red green
7 869.7750 - - red orange
8 869.7875 - - green -
9 869.8000 - - green Red
10 869.8125 - green green
11 869.8250 - - green orange
12 869.8375 - - orange -
13 869.8500 - - orange red
14 869.8625 - - orange green
15 869.8750 - - orange orange
16 869.8875 - red - -
17 869.9000 - red - red
18 869.9125 - red - green
19 869.9250 - red - orange
20 869.9375 - red red -
21 869.9500 - red red red
22 869.9625 - red red green
23 869.9750 - red red orange
STATUS1 2 1 2
STATUS1 2 1 2
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Table 8: RF Channel Table 433 / 434 MHz Band
Channel Frequency (MHz) 1 2 3 4
1 433.0775 - - - red
2 433.1025 - - - green
3 433.1275 - - - orange
4 433.1525 - - red -
5 433.1775 - - red red
6 433.2025 - - red green
7 433.2275 - - red orange
8 433.2525 - - green -
9 433.2775 - - green red
10 433.3025 - - green green
11 433.3275 - - green orange
12 433.3525 - - orange -
13 433.3775 - - orange red
14 433.4025 - - orange green
15 433.4275 - - orange orange
16 433.4525 - red - -
17 433.4775 - red - red
18 433.5025 - red - green
19 433.5275 - red - orange
20 433.5525 - red red -
21 433.5775 - red red red
22 433.6025 - red red green
23 433.6275 - red red orange
24 433.6525 - red green -
25 433.6775 - red green red
26 433.7025 - red green green
27 433.7275 - red green orange
28 433.7525 - red orange -
29 433.7775 - red orange red
30 433.8025 - red orange green
31 433.8275 - red orange orange
32 433.8525 - green - -
33 433.8775 - green - red
34 433.9025 - green - green
STATUS1 2 1 2
STATUS1 2 1 2
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Channel Frequency (MHz) 1 2 3 4
35 433.9275 - green - orange
36 433.9525 - green red -
37 433.9775 - green red red
38 434.0025 - green red green
39 434.0275 - green red orange
40 434.0525 - green green -
41 434.0775 - green green red
42 434.1025 - green green green
43 434.1275 - green green orange
44 434.1525 - green orange -
45 434.1775 - green orange red
46 434.2025 - green orange green
47 434.2275 - green orange orange
48 434.2525 - orange - -
49 434.2775 - orange - red
50 434.3025 - orange - green
51 434.3275 - orange - orange
52 434.3525 - orange red -
53 434.3775 - orange red red
54 434.4025 - orange red green
55 434.4275 - orange red orange
56 434.4525 - orange green -
57 434.4775 - orange green red
58 434.5025 - orange green green
59 434.5275 - orange green orange
60 434.5525 - orange orange -
61 434.5775 - orange orange red
62 434.6025 - orange orange green
63 434.6275 - orange orange orange
64 434.6525 red - - -
65 434.6775 red - - red
66 434.7025 red - - green
67 434.7275 red - - orange
68 434.7525 red - red -
69 434.7775 red - red red
STATUS1 2 1 2
STATUS1 2 1 2
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Table 9: RF Channel Table 915 MHz Band (USA)
Channel Frequency (MHz) 1 2 3 4
1 903.0 - - - red
2 904.2 - - - green
3 905.4 - - - orange
4 906.6 - - red -
5 907.8 - - red red
6 909.0 - - red green
7 918.6 - - red orange
8 919.8 - - green -
9 921.0 - - green red
10 922.2 - - green green
11 923.4 - - green orange
12 903.2 - - orange -
13 904.4 - - orange red
14 905.6 - - orange green
15 906.8 - - orange orange
16 908.0 - red - -
17 909.2 - red - red
18 918.8 - red - green
19 920.0 - red - orange
20 921.2 - red red -
21 922.4 - red red red
22 923.6 - red red green
23 903.4 - red red orange
24 904.6 - red green -
25 905.8 - red green red
26 907.0 - red green green
27 908.2 - red green orange
28 909.4 - red orange -
29 919.0 - red orange red
30 920.2 - red orange green
31 921.4 - red orange orange
32 922.6 - green - -
33 923.8 - green - red
34 903.6 - green - green
STATUS1 2 1 2
STATUS1 2 1 2
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Channel Frequency (MHz) 1 2 3 4
35 904.8 - green - orange
36 906.0 - green red -
37 907.2 - green red red
38 908.4 - green red green
39 909.6 - green red orange
40 919.2 - green green -
41 920.4 - green green red
42 921.6 - green green green
43 922.8 - green green orange
44 924.0 - green orange -
45 903.8 - green orange red
46 905.0 - green orange green
47 906.2 - green orange orange
48 907.4 - orange - -
49 908.6 - orange - red
50 919.4 - orange - green
51 920.6 - orange - orange
52 921.8 - orange red -
53 923.0 - orange red red
54 924.2 - orange red green
55 904.0 - orange red orange
56 905.2 - orange green -
57 906.4 - orange green red
58 907.6 - orange green green
59 908.8 - orange green orange
60 918.4 - orange orange -
61 919.6 - orange orange red
62 920.8 - orange orange green
63 922.0 - orange orange orange
64 923.2 red - - -
65 924.4 red - - red
STATUS1 2 1 2
STATUS1 2 1 2
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8. Technical Data
8.1 LRC-L1 Specifications
Electronic Data
Commands Up to 55 digital commands + STOP
Up to 8 analog commands
Digital Circuitry Dual-processor technology
System Addresses 24 bits = 16 million addresses
Energy-saving Mode Automatic shutdown (configurable 0-30 minutes)
Supply Voltage Rechargeable battery, NiMH 4.8 V / 2600 mAh
Autonomy >12 h at 100% uninterrupted use
Mechanical Data
Please refer to the Product Datasheet at www.cattron.com
Operation and Indication
Layout Standard 2 joysticks or fully customizable
Control Elements (typical) 2 joysticks, stepped or step-less, start, horn, stop, key switch, push
buttons, toggle switches, rotary switches, etc.
Transkey™ System configuration, address, and RF channel setting
Buzzer Low voltage indication and tilt
Graphics LCD 128 x 64 dots
backlight white
(graphic LCD optional)
LED 1 status LED
4 multi-function LEDs
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RF
Frequency Range 335 MHz
406-419 MHz
433-434 MHz
447-473 MHz
869 MHz
902-927 MHz
other frequencies on request
Transmission Speed 4.8 to 20 kbps
Transmitter Output Power 10 mW – 1 W with various modules
(within permitted limits)
Modulation FM
RF Channel Spacing 12.5 kHz; 25 kHz and others
Antenna Internal
Standards
Safety EN 13849-1 Category 3 PL d
EN 60204-1
EN 60204-32
CE Compliant
Accessories
Batteries 2 rechargeable batteries,
NiMH, 4.8 V/1600 mAh
Battery charger Processor-controlled charger
with plug adapter system on the primary side for international use
100-240 VAC, 50-60 Hz
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8.2 LRC-M1 Specifications
Electronic Data
Commands Up to 34 digital commands + STOP
Up to 8 analog commands
Digital Circuitry Dual-processor technology
System Addresses 24 bits =16 million addresses
Energy-saving Mode Automatic shutdown
(configurable 0-30 minutes)
Supply Voltage Rechargeable battery, NiMH 4.8V/1600 mAh
Autonomy >12 h at 100% uninterrupted use
Mechanical Data
Please refer to the Product Datasheet at www.cattron.com
Operation and Indication
Layout Standard 2 joysticks or fully customizable
Control Elements (typical) 2 joysticks, stepped or step-less, start, horn, stop, keyswitch, push
buttons, toggle switches, rotary switches, etc.
TransKey™ System configuration, address and RF channel setting
Buzzer Low voltage indication and tilt
Graphics LCD 128 x 64 dots
backlight white
(graphic LCD optional)
LED 1 status LED
4 multi-function LEDs
RF
Frequency range 335 MHz
406-419 MHz
433-434 MHz
447-473 MHz
869 MHz
902-927 MHz
other frequencies on request
Transmission Speed 4.8 to 20 kbps
Transmitter 10 mW – 1 W with various modules
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Output Power (within permitted limits)
Modulation FM
RF Channel Spacing 12.5 kHz; 25 kHz and others
Antenna Internal
Standards
Safety EN 13849-1 Category 3 PL d
EN 60204-1
EN 60204-32
CE Compliant
Accessories
Batteries 2 rechargeable batteries,
NiMH, 4.8 V/1600 mAh
Battery Charger Processor-controlled charger
with plug adapter system on the primary side for international use
100-240 VAC, 50-60 Hz
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9M02-7634-A001-EN Version 3
Compliance
CE Declaration of Conformity
Refer to www.cattron.com/DOC
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9. Troubleshooting
9.1 OCU Error Indication
Should an error occur, the Status LED in the LED/push-button panel of the OCU unit indicates the cause of the
error. This is done via a number of different blink sequences. The sequences and the relevant corrective actions
are listed below.
Table 10: OCU Error Indications
LED # of
Flashes Description Corrective Action
2 TransKey cannot be read Plug in TransKey
3 Error detected in TransKey
configuration
Have the TransKey-configuration checked by
Cattron.
4 Low-voltage condition of the mains
supply detected Change main board.
5 Switch-on sequence not carried out
correctly
Switch the OCU off and on again, following the
correct switch-on sequence.
6 Fault during reading control elements Replace control element or main board.
7 Internal communication error between
RF module and main board Replace RF module or main board.
8 General system fault Replace main board.
9 Low-voltage detection shortly after
switch-on Change or charge battery.
10 Hardware fault Replace main board.
CattronControl™ LRC-M1 and LRC-L1 User Manual
9M02-7634-A001-EN Version 3
Due to continuous product improvement, the information provided in this document is subject to change without notice.
Cattron Support For remote and communication control systems support, parts and repair, or technical support, visit us online at: www.cattron.com/contact
Cattron North America Inc., 655 N River Rd NW, Suite A, Warren, OH 44483