Transcript
600 Series Programming Manual
This manual is intended for use with MicroLite Corporation’s 600 Series Lighting Controllers. Information in this document is subject to change without notice and does not represent a commitment on the part of MicroLite Corporation. Except where indicated, no part of this manual may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or information storage or retrieval systems, for any purpose other than the purchaser’s personal use, without the express written permission of MicroLite Corporation.
MicroLite Corporation 1150 Powis Road West Chicago, IL 60185 Phone (630) 876-0500 FAX (630) 876-0580
© 1996–2000 MicroLite Corporation
Revision 05/00
Document #M05-09-04
600 Series Programming Manual
Table of Contents
Introduction .................................................................1 System functionality .................................................................. 3 Load control .............................................................................................. 3 Astronomical clock .................................................................................... 5 Load duty-cycle ......................................................................................... 5 Memory backup ......................................................................................... 6 Year 2000 compliance............................................................................... 6
System features .......................................................................... 7 Alarms ....................................................................................................... 7 Alarm auto reset ........................................................................................ 8 Load Circuit Interrupter device (LCI) ......................................................... 8 Occupancy warning ................................................................................... 9 Priority scheme .......................................................................................... 9 Zero Cross option (Available on the 600Z Series controller*).................. 12
Options - 600M and 600P ......................................................... 13 Communications Module ......................................................................... 13 DMX Communications Module ................................................................ 13
Options - 600H .......................................................................... 14 Pilot Light Module - 600H Series ............................................................. 14 Communications Module - 600H Series .................................................. 14
Program Planning......................................................15 Programming worksheets ........................................................ 15 System Information Worksheet ............................................................... 15 Load Configuration Worksheet ................................................................ 16 Holiday Assignment Worksheet .............................................................. 16 Switch Input Assignment Worksheet ....................................................... 18 Load Time Schedule Worksheet ............................................................. 18
600 Series Programming Manual
Programming .............................................................21 Powering up .............................................................................. 21 Logging on .............................................................................................. 22
Panel configuration .................................................................. 22 Load setup and configuration (for 600M, 600P, and 600H Series controllers) ......................................................................................................... 24 Zero Cross setup and configuration (for 600Z Series controllers only) ... 25 Date and time setting .............................................................................. 27 Astronomical clock setup ......................................................................... 29 All On / All Off switch input programming ................................................ 31 Occupancy warning time programming ................................................... 31 Load duty-cycle setup ............................................................................. 33 Priority scheme setup .............................................................................. 34 LCI load programming ............................................................................. 34 Switch input programming ....................................................................... 36
Time schedule programming ................................................... 39 Entering and revising a time schedule .................................................... 39 Initiating a time schedule ......................................................................... 42
Copying a time schedule ......................................................... 43 Copy from day to day (for the same load) ............................................... 43 Copy entire schedule (from one load to another load) ............................ 45
Holiday date programming ...................................................... 47 Alarm programming ................................................................. 48 Setting alarms ......................................................................................... 48 Viewing and resetting alarms .................................................................. 49 Alarm auto reset programming ................................................................ 50
Monitoring and controlling loads ............................................ 51 Monitoring loads ...................................................................................... 51 Controlling loads ..................................................................................... 52
Appendix ....................................................................53 System Information Worksheet ............................................... 54 Panel information .................................................................................... 54 Geographical coordinates ....................................................................... 54
Latitude and Longitude of Selected North American Cities .. 55
600 Series Programming Manual
Introduction This manual is a comprehensive guide containing the procedures for programming the MicroLite 600 Series programmable, low-voltage, lighting controllers (600M, 600P, and 600H). Information in this manual is presented in step-by-step instructions, allowing for easy programming of the controller. Displays for each step in the programming process are shown to the right of the instruction just as they appear on the Local Control Unit (LCU). Figures 1 and 2 show the location of the LCU and other features of each type of controller. Read this manual completely to familiarize yourself with the steps BEFORE programming the lighting controller. Plan your program carefully before you start programming. An essential part of the programming procedure is documenting your program on the worksheets provided in the Appendix. Fill them out accurately and completely before you begin programming. Whenever modifications need to be made to the program, remember to update these assignment sheets before programming the controller.
Figure 1. 600M and 600P Series main circuit board.
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Figure 2. 600H Series main circuit board.
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System functionality Load control The 600 Series lighting controller offers many different ways to control loads. Switch inputs and time schedules allow user-defined operation of loads within the panel.
600H Series relay control Relays in the 600H Series panel are driven by Relay Output Modules (A7052). A maximum of four A7052 boards controlling up to 6 relays each can be mounted in each 600H Series panel, for a maximum of 24 relays per panel. Your 600H Series panel may have fewer than four A7052 boards depending on the number of circuits you need to control.
Switch inputs Two switch input types are present in the 600 Series lighting controller: Normal and All On/All Off.
Normal switch input Normal switch inputs refer to switch inputs 1–48 shown in Figure 1 and 1–24 shown in Figure 2. These inputs can be wired to externally mounted maintained or momentary switches. Switches can control (turn on or off) any combination of the up to 48 loads (24 for a 600H) in the panel. Only enabled loads can be assigned to switch inputs. Because load response depends on the type of switch, each switch input must be designated as either a maintained switch or momentary switch during Switch input programming. When a maintained switch is closed, linked loads will be turned on. When opened, linked loads will be turned off. Momentary switches change load states upon contact closure. To determine the appropriate load state when a momentary switch is operated, the 600 Series controller uses a reference load. The reference load is the lowest numbered load in the group of loads linked to the momentary switch. If the reference load is ‘Off,’ the panel will turn all loads ‘On’ regardless of the state of the other loads in the group. For example, Loads 3, 5, 7, and 9 are linked to switch input 1 which is wired to a momentary switch. The lowest numbered load in the group, Load 3, is the reference load. Loads 3 and 5 are ‘On’ and loads 7 and 9 are ‘Off.’ Switch input 1 is operated. Loads 3 and 5 turn ‘Off’ and loads 7 and 9 remain ‘Off.’ Switch input 1 is operated again. Loads 3, 5, 7, and 9 turn ‘On.’ A normal switch input may also be programmed to act as a time delay switch. When a time delay switch is activated, the assigned load(s) will turn on for the programmed time (from 1 minute to 9 hours, 59 minutes) and then turn off. Use the Switch input programming procedure on page 36 to make these assignments. Switch inputs can also be designated as On Only or Off Only switches, restricting the specified switch to those functions only. On Only/Off Only is pro-
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grammed as part of Switch input programming on page 36. Typical applications for these features are: • An office in which lights are time-of-day programmed to be on from 8:00 AM to 5:00 PM. A wall-mounted momentary switch is provided in the office to allow workers to turn lights on if they arrive early or stay late. Since each operation of this switch would normally toggle the lights on or off, the switch is programmed as On Only. This prevents an accidental operation of the wall switch from turning off the office lights during the normal occupancy time. • Certain types of wall-mounted switches that provide two input signals: one to turn the load on, the other to turn the load off. These switches can be connected to two switch inputs, one programmed as On Only, the other as Off Only. Both switch inputs can then be used to control the same load(s).
All On / All Off switch input An externally mounted switch can be connected to the All On/All Off input to act as a master on/off switch. When a two-wire maintained All On switch is turned on, all loads will turn on. When it is turned off, all loads will turn off. The opposite is true for a two-wire maintained All Off switch. Use the All On/All Off switch input programming procedure on page 31 to establish whether this external switch is a momentary or maintained action switch. (Refer to the appropriate installation instructions for your specific 600 Series controller for wiring of All On/All Off switches.)
Time schedules Each load can be switched up to eight (8) predetermined times a day. The time can be a clock time (e.g., on at 8:00 AM, off at 5:00 PM), astronomical time (e.g., on at 1 hour before sunset, off at sunrise), or a combination of the two (e.g., on at 30 minutes before sunset, off at 10:00 PM). Different times can be established for each schedule and different schedules can be created for each of the seven days of the week. Up to 40 separate holiday schedules (lasting up to 30 days each) can also be created. Use the Time schedule programming procedure on page 39 to assign the time and holiday schedules and the Holiday date programming procedure on page 47 to assign the holiday schedules to specific dates. Disabled loads cannot be programmed with time schedules.
Keypad operation Loads can be turned on or off individually or as an All On/All Off group on the programming keypad by using the Monitoring and controlling loads procedure on page 51.
Bypass The controller motherboard contains three bypass switches to manually bypass all time schedules and switch inputs. Figures 1 and 2 illustrate the location of these switches. Pressing BYP-ON or BYPASS ON will turn all loads on. Pressing BYP-OFF or BYPASS OFF will turn all loads off. After either of these switches has been pressed, the BYPASSED LED will illuminate indicating that the system is in bypass mode. During this time, no commands are issued to the loads by the controller. This includes commands from time schedules and switch
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inputs. Pressing NORMAL will turn the BYPASSED LED off and return the system to normal operation with the controller updating all loads to their correct operating condition. When the panel is in either Bypass On or Bypass Off, the controller queues any commands that are sent to the loads during the Bypass state. When the bypass state is cleared, loads will assume the state commanded by the most recent time schedule or input. This may or may not be the load’s expected state. For example, a switch input may be pressed to turn lights off during a Bypass On state. Though the loads will not respond immediately, when Bypass On is cleared, they will be driven to an off state even if they would normally be on due to a time schedule. The loads will remain off until the next switch input or time schedule command to turn on.
Astronomical clock The astronomical clock feature automatically calculates the times of sunrise and sunset based on the date and your geographic location. It allows you to program lights to turn on or off at a selected time before or after both sunrise and sunset. Selectable offsets of 0 to 120 minutes may be programmed. Refer to page 29 for programming considerations and instructions.
Load duty-cycle Load duty-cycle refers to the setting that determines how fast multiple loads are turned on or off when multiple loads are switched by the same command or at the same time. The choices you are allowed depend upon the type of controller you have and the type of output device you are using. Load duty-cycle is set automatically to the maximum loads per second based upon the panel’s programmed configuration. It can also be set manually. Use the Load duty-cycle setup programming procedure on page 33 to make changes. You will need to choose an appropriate load duty-cycle based upon your panel’s configuration of output devices, input switches, and special features. The controller will not allow choices over the maximum number of loads per second your configuration supports. You can, however, choose a value that is lower than the maximum. The benefit of such a choice is that the increase in power needed to perform the switching is spread over a longer period of time. Conversely, there are some situations where the fastest load duty-cycle is recommended, as is the case when Load Circuit Interrupter (LCI) devices are programmed to give an Occupancy Warning on Switch Off. The occupancy warning pulse will switch off those loads programmed at the set load duty-cycle. Once all loads are off, the panel waits one second, then switches the loads on again. If the length of the load duty-cycle plus the occupancy warning pulse exceeds 5 seconds, LCI devices will switch off and the loads will begin to sweep. Only large numbers of loads switching at a very slow duty-cycle are affected by this, but it is recommended that in this instance, the fastest load duty-cycle is kept (automatically set by panel). For more information on LCI devices, refer to page 8.
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Memory backup The 600 Series controller features a memory backup function that automatically saves your current programming and configuration data to a backup location each time you log out of the programming mode. If the main programming data becomes corrupt and does not match the backup, the 600 controller will restore the programming information contained in the backup. To activate the backup process, you must log out of the programming mode. This can be done actively, as described at the end of each programming sequence, or by ‘timing out’—waiting for the controller to log out automatically (5 minutes without a keypress). During the log out process, the controller will save currently programmed data to the backup. MicroLite 600 Saving Program
Be sure to log out successfully when modifying the controller’s programming to ensure that your changes are backed up. If the controller is powered down before logging out, backup will not take place and all changes will be lost.
Year 2000 compliance The 600 Series panel has been designed to be Year 2000 compliant. The current date and any holiday dates are programmed and displayed in the following format: MMDDYY. The 600 Series firmware has been programmed to recognize the date range from January 1, 1980 to December 31, 2079 as valid. When entered in the year field, the numbers 80 to 99 are recognized as the years 1980 to 1999. The numbers 00 to 79 are recognized as the years 2000 to 2079. When entering dates, use the two digit format for all years (e.g., enter ‘01’ for 2001). The current date and sunrise and sunset times can be viewed once they are correctly programmed into the controller (see Date and time setting, page 27). The current time is displayed at the log on screen. The current program running is shown in parentheses beside the date. In the example at right, the panel is running the programmed schedule for Friday. Holidays are shown by their assigned number (e.g., Holiday 1 is shown as H1). •
•
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Press the Enter (ENTR) key once at the log on screen. The current day of the week and date will be displayed. After a few moments, the display will return to the log on screen. Press the Enter key twice at the log on screen. Current sunrise and sunset times will be displayed. Again, after a few moments, the display will return to the log on screen.
MicroLite 600 11:05:28a (Fri)
MicroLite 600 Wed 4/5/00
MicroLite 600 R=6:27a S=7:22p
600 Series Programming Manual
System features Alarms Your 600 Series lighting control panel can display two different types of alarms: Load alarms, relating to the behavior of specific relays or breakers, and panel alarms, relating to fuse and power status for the entire panel. Loads must be programmed to display each type of load alarm.
Load alarms Each load can be programmed to display one or both of the load alarms. By default, enabling a load automatically enables both Unexpected Change and Command Failure alarms. •
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Unexpected Change. This alarm occurs when a relay or solenoidoperated breaker changes state without a command from the controller. An overload trip of a breaker or manual operation of either a breaker or a relay will cause this alarm. Command Failure. This alarm occurs when a relay or solenoid-operated breaker does not change state after being commanded to do so by the controller. This alarm also is raised if the controller signals either a breaker that is turned off or has tripped or a configured load—one defined as a relay or breaker—to which no relay or breaker is attached (if that load has been defined with this alarm).
Setting alarms is part of the Setting alarms procedure on page 48.
Panel alarms Blown fuses or insufficient power will cause the panel to display the following alarms. When one of the following alarms occurs, the LCU unit with display the appropriate message (as shown below) and the Activity and Bypassed LEDs will blink rapidly indicating the alarm state. Refer to Figure 1 or Figure 2 for fuse locations. Contact MicroLite Customer Service to order replacement fuses. For 600M and 600H panels, order fuse kit A9021-000. For 600P panels, order fuse kit A9021-001. •
Check fuse F1. This alarm occurs when fuse F1 is blown or missing. Fuse F1 is a 1 Amp. MicroLite 600 Check Fuse F1
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Check fuse F2. This alarm occurs when fuse F2 is blown or missing. Fuse F2 is a 2.5 Amp fuse. MicroLite 600 Check Fuse F2
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•
Power too low. This alarm occurs when the power supplying the panel is insufficient for the panel to operate. For example, a 600 panel that is wired for operation at 277 VAC will display this alarm if 120 VAC is connected to the power supply. Check incoming power. Be sure to use appropriate precautions when working with high-voltage wiring. MicroLite 600 Power too low
Note: When Fuse F3 is blown or missing, the LCU will be blank and no activity lights will be displayed.
Alarm auto reset The alarm auto reset feature automatically clears load alarms if a panel command successfully changes the state of the load in alarm. Panel commands include switch inputs and time schedules. For example, Load 1 posted a Command Failure (CF) alarm at 8:00 AM. At 10:00 AM, a switch input is operated, commanding Load 1 to turn on. Load 1 responds successfully. With Auto Reset enabled, the CF alarm is cleared by the panel. The auto reset feature is enabled by default. Disabling auto reset will cause all load alarms to remain in memory and display on the LCU until manually cleared by the user using the Viewing and resetting alarms procedure on page 49. Follow the procedure on page 50 to enable or disable the Auto Reset feature.
Load Circuit Interrupter device (LCI) This feature is used in conjunction with LCI wall switches, such as Sentry Switches™. When power is cut to an LCI switch for greater than 5 seconds, the switch will automatically shut off, turning off its lights. The LCI feature controls loads that are tied to LCI devices by providing power continuously to the load during programmed ‘on’ times when the building would normally be occupied. During programmed ‘off’ times when the building would normally be unoccupied, designated loads are cycled off at programmed intervals of up to 2 hours. When the duration of the ‘off’ cycle (programmable from 1-10 seconds) exceeds 5 seconds, the LCI switches will turn controlled lights off. Because power to the load is only cycled off, not shut off completely, the wall switches can still be used during ‘off’ times to control lights. Lights that are on at the next programmed sweep interval will be turned off again. The sweep interval can be set from 1 minute to 2 hours. Note: LCI loads cannot be controlled by low-voltage switch inputs 1 through 48 (600M and 600P) or 1 through 24 (600H). Once a load has been defined as an LCI load, you will be unable to assign that load to a switch input. If an LCI load is entered when assigning loads to switch inputs, the following error message is displayed: Ld#1 used for LCI Dev.
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where “Ld#1” is the LCI load entered to be assigned to a switch input. Similarly, when defining LCI loads through the System menu, any load defined as an LCI load will be automatically removed from any switch or switches it was previously assigned to. LCI switches can be defined during LCI load programming on page 34. All On/All Off considerations: When the All On switch or keypad All On is activated while LCI loads are sweeping, the sweep interval is cleared. For LCI loads to resume sweeping, they must be turned off. This can be done through the keypad using the Controlling loads procedure on page 52. (Loads will also resume sweeping if turned off by a time schedule or All Off switch; however, the Controlling loads procedure is the best way to control only LCI loads.) The All Off switch or keypad All Off overrides the programmed time schedule for LCI loads and begins the programmed sweep interval until the next time schedule ‘on.’ Bypass-On/Bypass-Off considerations: When Bypass-On is pressed while LCI loads are sweeping, the sweep interval is cleared and LCI loads will turn on. Pressing Bypass-Off will also clear the sweep interval and turn LCI loads off. Pressing Normal will return loads to their regular time-scheduled state and sweeping will begin for LCI loads scheduled to be ‘off.’
Occupancy warning This feature causes selected loads to blink for one second prior to being turned off by a time schedule or a timed switch. The warning time can be set from 1 to 30 minutes. Use the Occupancy warning time programming procedure on page 31 to set the time and identify the loads. During the Switch input programming procedure on page 36, you can also specify that a switch input is to provide occupancy warning when turned off. This is intended to be used with Building Automation Systems (BAS) that do not have this ability. When the BAS opens a contact to turn off the lights, the panel will interpret this contact opening as a request to blink the lights. This is only the case if Occupancy Warning on Switch Off is selected. The panel will blink the lights, wait for the programmed occupancy warning time, and then turn the lights off. Note: LCI loads may be programmed to give an occupancy warning with consideration given to load duty-cycle to ensure best performance. For more information, see Load duty-cycle on page 5.
Priority scheme Your 600 Series lighting control panel can operate with one of two different priority schemes. A priority scheme is a method by which the controller determines whether or not to turn loads off when an ‘off’ command has been issued to controlled loads. Priority scheme is a panel-wide setting.
Control actions Loads can be turned on and off by eight different control methods: local override (relay plunger or breaker handle), bypass mode, all on/all off switch, keypad commands, time schedules, maintained switches, momentary switches, and 9
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maintained switches programmed with a time delay. Based upon the priority scheme, the 600 panel uses the load control method (control action) that switched the load on to determine the types of commands that can or cannot switch the load off.
Priority schemes The default priority scheme is called ‘Last Action.’ When Last Action priority is selected, loads will respond to the most recent, or last, control action that acted upon them. Under Last Action priority, all control actions except bypass mode can be overridden by any other control action. Bypass mode can only be overridden by manual load override (using the relay plunger or breaker switch). The optional priority scheme is called ‘Or’ priority. Selecting Or priority gives time schedules and maintained switches control priority over momentary switches and maintained, time delay switches (for more information on time delay switches, see Load control - Switch inputs). Loads that have been switched on by either a time schedule or a maintained switch cannot be switched off by momentary switches or time delay switches until the priority control action has been released. Time schedules and maintained switches can still be overridden by bypass, keypad all on/all off, all on/all off switches, and manual load override, as in Last Action priority.
Priority schemes and switch groups The configuration of your panel will affect the way the selected priority scheme impacts loads. Multiple loads can be controlled by a single switch or multiple switches. Each ‘switch group’ (multiple loads controlled by a single switch) may contain loads that are part of other switch groups, resulting in overlap. The selected priority scheme will affect overlapping loads in different ways. When last action priority is selected, any operation of one of the switch inputs will cause the linked loads to change state. Loads that are part of more than one switch group will assume the state commanded by the most recent switch operation. This may result in unexpected lighting changes. When Or priority is selected, switch groups that are controlled by maintained switches will function in a different manner. When the maintained switch is turned on, the linked loads will turn on. Loads that are part of more than one switch group may be commanded on by more than one maintained switch at a time. These loads will remain on until all maintained switches (priority control actions) are released, assuming no time schedule has acted upon the load. Note: Momentary switches that have been programmed as on only / time delay switches will not be ignored by the controller when Or priority is selected provided that Occupancy Warning has been enabled for the panel.
Examples The following examples illustrate the function of each priority scheme. For examples 1–4, Load 1 is assumed to have been programmed with a daily time schedule of on at 8:00AM and off at 5:00PM.
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Example 1: The 600 Series lighting control panel has been programmed with Last Action priority and Load 1 is operating according to the programmed time schedule. At 10:00AM, a momentary switch is activated to turn Load 1 off. The time schedule has been overridden and Load 1 turns off. Example 2: The 600 Series lighting control panel has been programmed with Or priority and Load 1 is operating according to the programmed time schedule. At 10:00AM, a momentary switch is activated to turn Load 1 off. The time schedule takes priority over the momentary switch and the momentary switch command is ignored. Load 1 remains on until 5:00PM. At 5:30PM, a maintained switch is operated, turning Load 1 on. At 6:00PM, a momentary switch is operated to turn Load 1 off. The maintained switch takes priority over the momentary switch and the momentary switch command is ignored. Load 1 remains on until the maintained switch is operated again to turn the load off. Example 3: The 600 Series lighting control panel has been programmed with Or priority. At 6:00AM, a maintained switch is operated to turn Load 1 on. The maintained switch is still in the on position at 8:00AM when the time schedule on command is sent to the load. At 5:00PM, the time schedule commands the load to turn off. The maintained switch is still in the on position and has the same priority as the time schedule. Load 1 remains on until the maintained switch is operated again at 6:00PM, turning Load 1 off. Example 4: The 600 Series lighting control panel has been programmed with Or priority. At 5:30PM, a maintained switch commands Load 1 to turn on. At 6:00PM, a maintained, time delay switch is operated to turn Load 1 on for two hours. The original maintained switch takes priority over the time delay switch and the time delay switch is ignored. At 6:30PM, the original maintained switch is operated again, turning Load 1 off. For examples 5–7, Loads 1 and 2 are linked to switch input 1, a maintained switch (Switch group ‘A’). Loads 2 and 3 are linked to switch input 2, a maintained switch (Switch group ‘B’). Loads 3 and 4 are linked to switch input 3, a momentary switch (Switch group ‘C’). See below. Switch Group A Input #1, Maintained Loads 1, 2
Switch Group B Input #2, Maintained Loads 2, 3
Switch Group C Input #3, Momentary Loads 3, 4
Note: Momentary switches use reference relays to determine appropriate load state. See Normal switch input on page 3 for more information. Example 5: The 600 Series lighting control panel has been programmed with Last Action priority. All loads are off. Switch input 1 is operated first, turning loads 1 and 2 on. Switch input 2 is operated next, turning load 3 on (load 2 is already on). Switch input 3 is operated third, turning load 3 off and leaving load 4 off. Switch input 1 is operated again, turning loads 1 and 2 off. Switch input 2 is operated again, but there is no response as loads 2 and 3 are already off. Switch input 3 is operated again, turning loads 3 and 4 on.
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Example 6: The 600 Series lighting control panel has been programmed with Or priority. All loads are off. Switch input 1 is operated first, turning loads 1 and 2 on. Switch input 2 is operated next, turning load 3 on (load 2 is already on). Switch input 3 is operated third. Or priority will keep load 3 from responding (load 3 will remain on). Because load 3 is on due to an Or priority control action, load 4 becomes the reference relay. Load 4 will turn on. Switch input 1 is operated again, turning load 1 off. Load 2 remains on because of switch input 2. Switch input 2 is operated again, turning loads 2 and 3 off. Switch input 3 is operated again, turning load 3 on and leaving load 4 on.
Zero Cross option (Available on the 600Z Series controller*) The 600Z Series controller has the ability to switch loads at a constant point near the 0° phase angle of the line voltage cycle. Known as zero cross, this feature greatly reduces high inrush currents and helps to extend the life of the associated power contacts. Zero cross protection is particularly useful when electronic ballasts are used in lighting circuits. These newer, energy-efficient ballasts can dramatically exceed contact inrush ratings even in lightly loaded circuits. Through programming, the user can enable or disable zero cross, as well as assign the power phase that zero cross will follow. Because the zero cross function is dependent upon timing, and the speed with which each output device switches is different, it is important to ensure that each output device is correctly configured when programming. Use the Zero Cross setup and configuration procedure on page 25 to program zero cross functions. *600M and 600H Series controllers are available with the Zero Cross option.
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Options - 600M and 600P The following optional circuit boards modify the programming process of the 600M and 600P Series panels.
Communications Module The Communications Module - COM (A7011) allows connection of the 600 Series panel into an external control network. It is frequently used as a protocol converter between Building Automation Systems (BAS) and lighting control panels. MicroLite supplies unique EPROMs for each manufacturer’s system. Depending upon the BAS manufacturer, different features may be available. Please consult the BAS supplier’s documentation and/or additional documentation from MicroLite to determine which features of the 600 Series panel are available and how to program it from the BAS system. Note: With the A7011 option installed, you can still program the 600 Series panel from the keypad using the instructions in this manual. However, the BAS system may override these programming instructions or overwrite them completely. Please refer to the BAS manufacturer’s instructions. The log on screen includes the letter “c” when an A7011 is installed in the panel. Note: The A7011 option cannot be installed in a panel containing the COM/ DMX (A7037) option.
DMX Communications Module The DMX Communications Module - COM/DMX (A7037) provides an RS-485 interface between the 600 Series panel and theatrical or architectural dimming networks utilizing the DMX-512 protocol. The A7037 module allows control of non-dimmed circuits on a dimming system. Set-up software allows up to 48 relays or breakers in the MicroLite panel to be assigned to a DMX channel. Loads not assigned to DMX channels are available for operation as in a normal panel and will accept time schedules and switch inputs. Please consult the additional documentation from MicroLite for commissioning and programming information. The log on screen includes the letter ‘d’ when an A7037 is installed in the panel. Note: With the A7037 option installed, you can use the keypad to program loads not defined to DMX channels. Note: The A7037 option cannot be installed in a panel containing the COM (A7011) option.
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Options - 600H The following optional circuit boards modify the programming process of the 600H Series panel.
Pilot Light Module - 600H Series The Pilot Light Module - 600H Series (A7069) provides termination points and a power source for remotely mounted pilot lights. Up to 24 pilot lights can be driven by the A7069. Note: The A7069 may be used in conjunction with an A7047.
Communications Module - 600H Series The Communications Module - 600H Series (A7047) allows connection of the 600H Series panel into an external control network. It is frequently used as a protocol converter between Building Automation Systems (BAS) and lighting control panels. MicroLite supplies unique personalities for each manufacturer’s system. Depending upon the BAS manufacturer, different features may be available. Please consult the BAS supplier’s documentation and/or additional documentation from MicroLite to determine which features of the 600H Series panel are available and how to program it from the BAS system. The A7047 is FLASH programmable allowing the firmware in the circuit board to be updated without replacing hardware. Note: With the A7047 option installed, you can still program the 600H Series panel from the keypad using the instructions in this manual. However, the BAS system may override these programming instructions or overwrite them completely. Please refer to the BAS manufacturer’s instructions. The log on screen includes the letter “c” when an A7047 is installed in the panel. Note: The A7047 may be used in conjunction with an A7069.
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Program Planning Plan before you program! The Local Control Unit (LCU) has a “time out” feature that automatically logs you out if no keystrokes are entered for 5 minutes. Planning before you program prevents unnecessary log outs and makes programming fast and easy. Five worksheets are included in the Appendix so that you can plan and document your schedules. This section of the manual explains how to use them. Make copies of these sheets as necessary. SAVE THE ORIGINALS.
Programming worksheets System Information Worksheet Fill out the System Information Worksheet first. It contains information required to establish system-wide functions. Before setting the astronomical clock, the geographic coordinates of the panel’s location must be known. Use the Latitude/Longitude Tables included in the Appendix to establish the geographic coordinates for your location. If your location is not listed, you can find the latitude and longitude by referring to a local map of your area. The other information needed to establish the time is the GMT (Greenwich Mean Time) offset. If you don’t know what GMT value to use, perform the following steps: 1. 2. 3. 4. 5.
Perform steps 1-10 in the Astronomical clock setup procedure (page 29). In step 11, set the GMT offset to 0. Finish the procedure and initiate the changes immediately. Exit the programming mode. Press ENTR twice to display the calculated sunrise and sunset. Check to see if the times are correct.
Your local newspaper should have the sunrise and sunset times listed. If the times displayed are one hour too early, set the GMT offset to +1. If the times displayed are one hour too late, set the GMT offset to -1. If they match, leave the 15
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GMT offset set to 0.
Load Configuration Worksheet Use the Load Configuration Worksheet to keep track of the type of output device (MicroLite Relay, Breaker or Touch Plate™ Relay) and associated alarms for each load, as well as the power phase a load is programmed for in zero cross panels.
Figure 3.
Figure 3 shows how to properly complete the Load Configuration Worksheet. The example above is for a 600Z Series controller. Load #1 controls offices 101 and 102 with a phase A, wired MicroLite relay. It also is programmed to display an alarm condition for any unexpected changes in the relay’s state. Load #2 is also a MicroLite relay on phase A controlling the east stairwell. It is programmed to display an alarm condition for any unexpected changes and command failures in the relay. Load #3 is a controllable breaker on phase A controlling the north parking lot. It is also programmed to display an alarm condition for any unexpected changes and command failures in the breaker. Note: If you have a standard 600M, 600P, or 600H Series controller, you will leave the ‘Phase’ column blank.
Holiday Assignment Worksheet A holiday is any day or group of sequential days with a time schedule different from the daily (Monday-Sunday) on/off schedules. Be sure to include these days in your holiday plan. Some examples of standard holidays are: • New Year’s Day • Independence Day • Christmas Day Some examples of other days you might want to include are: • Partial days before holidays • Extended hour days (sales, holiday season, etc.) • Company holidays
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600 Series Programming Manual
Holiday numbers are prefixed with the letter “H” (i.e., H1 = Holiday #1). The format for holidays is: mm/dd–LL [month/day–number of days the holiday is to run] There are three holidays entered in the example used in Figure 4.
Figure 4.
The first holiday (H1) is for New Year’s Day (January 1), lasting for one day. The second holiday (H2) is for Independence Day (July 4), lasting for two days. The third holiday (H3) is Christmas. It starts on December 25 and runs for seven days. Each holiday schedule may have up to eight (8) on or off times per load and may run for as long as 30 days. These eight times may be any combination of clock and astronomical times. You can program holidays up to one year in advance. It is important to review the holiday dates each year because many holiday dates fluctuate from year to year. If the lighting schedule for a holiday remains the same from year to year, it is only necessary to identify to the system what date the holiday starts and how long it lasts.
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600 Series Programming Manual
Switch Input Assignment Worksheet The Switch Input Assignment Worksheet is used to plan which switch input controls which load(s) and what type of switch will be used. Determine which loads are to be controlled by each switch input and enter this information into the appropriate spaces.
Figure 5.
Figure 5 shows two examples. Input #1 controls loads 1, 3, and 4. It is a maintained input with no time delay. Input #2 controls loads 2, 5 and 6. It is a momentary input with a time delay of 1 hour (60 minutes). The time delay function acts as a mechanical timer. In other words, the loads will only stay on for that specified period of time each time the switch is operated.
Load Time Schedule Worksheet The Load Time Schedule Worksheet is the main worksheet. The information entered here is a record of how each load is programmed. It should be updated on a regular basis so that it always reflects each load’s current schedule. Enter the day of the week for which the schedule is valid at the very top. If the schedules are the same for multiple days of the week, the LCU allows these schedules to be copied from one day to another. This form is also used for holiday programming. If you are programming a holiday, enter the holiday number (i.e., H1, H2, etc.). Figure 6 shows four entries as examples on the Load Time Schedule Worksheet. For illustration purposes only the first four time sequences are shown. Each load can have up to eight times programmed.
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600 Series Programming Manual
Figure 6.
• •
•
•
Load #1 controls the hall lights. They are turned on at 8:00 am and off at 2:00 pm. Load #2 controls the auditorium lights. The lights will be turned on at 10:00 am, off at 12:00 pm, on again at 2:00 pm and finally off at 6:00 pm. Load #3 controls the east parking lot lights. These lights are to remain on all night so an astronomical time is set for it. Time 1 indicates that the lights are to be turned off one hour after sunrise. Time 2 indicates that the lights are to be turned on one hour before sunset. Load #4 controls the west parking lot. This is a mixed time schedule: the lights are to be turned on 30 minutes before sunset and off at 10:30 pm.
Note: The above time schedule shows times that might be typical of a weekday schedule and could therefore be copied from one day to another for each weekday. However, on Load #3, the last command sent to the load on Friday will turn the load on. This will keep the parking lot lights on through the night. A separately programmed off time must be entered for Saturday morning, or the lights will remain on all weekend (the next programmed off time is Monday morning).
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600 Series Programming Manual
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600 Series Programming Manual
Programming Programming the MicroLite 600 Series lighting controller is performed by entering information on the Local Control Unit (LCU) keypad according to the instructions given on the LCU display. The following instructions will guide you through each of the programming steps. For the examples given in this manual, each instruction set begins and ends at the log on display. Follow the instruction steps in numerical order, except when a decision results in different displays. In those instances, a ‘go to’ direction will be given in square brackets ([ ]) immediately after each choice. If no bracketed direction is given, proceed to the next step in order. At certain points in the programming sequence, the cancel (CNCL) key acts as an ‘escape’ sequence so that you can back out of certain functions. It may take five or more CNCL commands to get back to the Main Menu. As an alternative, you can simply wait for the LCU to time out–approximately 5 minutes without a keypress. Several menus and some data items are too large to fit on the screen. In these cases, the line containing the data or menu continuously scrolls slowly across the screen (speed is not adjustable). The end of the screen is marked with “>.” In this manual, only the item to be chosen from a scrolling menu is shown in the illustrations. An ellipsis (...) is shown to indicate that more menu items exist. IMPORTANT: Before proceeding, make sure the paper insulator in the battery backup holder has been removed. See Figure 1 on page 1 or Figure 2 on page 2 for location.
Powering up Standard 600M, 600P, and 600H Series controllers only: Standard 600 Series controllers are shipped with all loads configured as installed. When powering up the controller for the very first time, the second line of the display will show a date and time. Outputs that are not physically connected to loads will be disabled. Enabled loads can be controlled by using BYPASS ON, BYPASS OFF, and NORMAL settings and externally mounted All On or All Off switches. Switch inputs 1 through 48 (1 through 24 for a 600H) will control their corre-
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600 Series Programming Manual
sponding loads, if installed, in a one to one relationship (input 1 controls load 1, input 2 controls load 2, etc.). Switch inputs without corresponding loads installed are unprogrammed. 600Z Series controllers only: When powering up a 600Z Series controller for the very first time, the second line of the display will read “Unprogrammed” indicating the controller is in an unprogrammed state. An unprogrammed controller’s loads can be controlled by using BYPASS ON, BYPASS OFF, and NORMAL settings, externally mounted All On or All Off switches, and switch inputs 1 through 48. Switch inputs 1 through 48 will control their corresponding loads, one to one (input 1 controls load 1, input 2 controls load 2, etc.). Turn on the On/Off switch at the power supply (see Figure 1 or Figure 2) and the LCU display will appears as follows: MicroLite 600 Unprogrammed
MicroLite 600 11:05:28a (Fri)
600M, 600P, 600H Series Controllers
600Z Series Controllers
(time may differ from example shown)
Logging on •
To access the Programming Mode, enter the following password and then press ENTR (the numbers will not appear on the display as the keys are pressed): 15937
•
•
Once you log on, the copyright notice will appear and after a few seconds, the firmware version is displayed briefly. The final display is the Main Menu. This display is the starting point for all instruction sequences given in this manual. To log off from the Main Menu, press CNCL. You are then prompted to confirm your choice. Press YES to exit. Press NO to return to the Main Menu.
ALL UNPROGRAMMED CONTROLLERS: Logging on for the first time will disable all loads. Loads must be enabled in order to respond to controller commands (see Panel configuration, below).
Panel configuration The first time a panel is powered up, certain system functions such as date, time, and astronomical clock, must be programmed. Load setup or Zero Cross setup procedures should also be performed at this time. Note: Standard 600M, 600P, and 600H Series Controllers are shipped with Load setup and configuration completed. 600M, 600P, and 600H Series controllers only: When programming the controller for the first time, you will need to designate the type of output device (load) connected to each panel output (see Load setup and configuration, page 22
600 Series Programming Manual
24) in order to enable each load. Enabling a load allows the load to respond to time schedules and switch inputs and automatically enables both Command Failure and Unexpected Change alarms for that load. 600Z Series controllers only: When programming the controller for the first time, you must first program your panel’s power phase and load configuration (see Zero Cross setup and configuration, page 25) in order to enable each load. Enabling a load allows the load to respond to time schedules and switch inputs and automatically enables both Command Failure and Unexpected Change alarms for that load. The default setting for a 600Z Series controller is zero cross mode enabled with a load duty-cycle of 30 loads per second. If any loads are defined as breakers during programming, the load duty-cycle will adjust to 10 loads per second.
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600 Series Programming Manual
Load setup and configuration (for 600M, 600P, and 600H Series controllers) Load setup allows you to define all loads in general with 3 options: all breakers, all relays, or a combination of breakers and relays. It also allows you to specify, for a single output, what type of load is connected. If your panel has a combination of output types, you should first configure all loads as a combination of breakers and relays. For 600M and 600P panels, this will define outputs 1 through 24 as breakers and 25 through 48 as relays (typical factory pre-wired configuration). For 600H panels, selecting a combination of breakers and relays will define outputs 1 through 12 as breakers and 13 through 24 as relays. Specific outputs can then be redefined as necessary. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 3 to select Load functions.
3. Press 1 to select Load Setup.
4. Press 1 to configure all loads. Press 2 to configure one load [Go to step 6]. When all programming is complete, press CNCL [Go to step 10].
5. Press 1 to select all relays, 2 to select all breakers, or 3 to select a combination of breakers and relays [Go to step 4].
6. Enter the number of the load you want to program and press ENTR.
7. The second line of the display shows the current load type. Press YES if the information is correct [Go to step 9] . Press NO to make changes.
8. Press 1 if the load is a MicroLite Relay, 2 if it is a Breaker, 3 if it is a Touch Plate™ Relay, or 4 to disable the load [Go to step 7].
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1=Program 2=... Cncl = Exit
3=Loads 4=... Cncl = Exit 1=Load Setup ... Cncl = Exit
1=All Loads ... Cncl = Exit
1=All Relays ... Cncl = Exit
Enter Load # Cncl=Exit > _
Ld# 1 Ok? Y/N ML Relay
1=ML Relay 2=... Cncl = Exit
600 Series Programming Manual
Note: Disabled loads will only respond to bypass switches (Bypass-On, Bypass-Off and Normal). They will not respond to switch inputs or time schedules.
9. Press YES to program another load [Go to step 6]. Press NO if you are done [Go to step 4].
Do Another? Yes or No?
10. Press CNCL 3 times and then YES to exit the Programming Mode.
Zero Cross setup and configuration (for 600Z Series controllers only) Zero Cross setup allows you to enable or disable zero cross, program the incoming power phase being used with the panel power supply, and configure the types of output devices and which power phase is being used with each. When powering up the panel for the first time, zero cross will be enabled, the panel power phase will be set to ‘None,’ and all loads will be disabled. You will need to program the panel power phase and configure each load before the loads will respond to time schedules and switch inputs. Note: Disabling zero cross will cause a 600Z panel to function as a standard 600 panel. If you re-enable zero cross, you will need to reprogram panel power phase and load setup. No other programming will be erased by disabling zero cross. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 3 to select Load functions.
1=Program 2=... Cncl = Exit
3=Loads 4=... Cncl = Exit
3. Press 1 to select Zero Cross Setup.
1=ZeroCross ... Cncl = Exit
4. Press YES if zero cross is enabled and that mode is correct [Go to step 6]. Press YES if zero cross is disabled and that mode is correct [Go to step 4 of Load setup and configuration for 600M, 600P, and 600H Series controllers]. Press NO to make changes.
ZeroCross Mode Enabled Ok? Y/N
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600 Series Programming Manual
5. Press 1 to enable zero cross mode [Go to step 4]. Press 2 to disable zero cross mode [Go to step 4].
6. Press 1 to select the Panel Power Phase function. Press 2 to select Load Setup [Go to step 9]. When all programming is complete, press CNCL [Go to step 14].
26
1=Enable 2=... Cncl = Exit
1=Panel Power ... Cncl = Exit
7. The default power phase setting is “None.” Press YES if the power phase setting is correct [Go to step 6]. Press NO to make changes.
Panel Power In None OK? Y/N
8. Press 1 to select Phase A, 2 to select Phase B, or 3 to select Phase C [Go to step 7].
Enter Power Ph. 1=A 2=B 3=C
9. Enter the number of the load you want to program (1-48) and press ENTR. Press CNCL to go back to step 4.
Enter Load # Cncl=Exit > _
10. There are two fields of information on the second line of the display. The first field is the load type and the second is the power phase used. Press YES if the information is correct [Go to step 13]. Press NO to make changes.
Ld# 1 Ok? Y/N Disabled None
11. Press 1 if the load is a MicroLite Relay, 2 if it is a Breaker, 3 if it is a Touch Plate™ Relay, or 4 to disable the load. Note: Disabled loads will only respond to bypass switches (Bypass-On, Bypass-Off and Normal). They will not respond to switch inputs or time schedules.
1=ML Relay 2=... Cncl = Exit
12. Press 1 to select Phase A, 2 to select Phase B, or 3 to select Phase C [Go to step 10].
1=Phase A 2=... Cncl = Exit
600 Series Programming Manual
13. Press YES to program another load [Go to step 9]. Press NO if you are done [Go to step 6].
Do Another? Yes or No?
14. Press CNCL 3 times and then YES to exit the programming mode.
Date and time setting This procedure is used to set the system clock. You can choose to display times in one of two formats: • 12 hour format (default). When chosen, you will be asked to specify am or pm whenever times are entered. Note that 12:00 am is midnight, and 12:00 pm is noon. • 24 hour format. This is also known as military time. The Daylight Savings Time feature is disabled when the panel is shipped from the factory. When this feature is enabled, the system clock is automatically set ahead 1 hour at 2:00 am on the first Sunday of April and set back 1 hour at 2:00 am on the last Sunday of October. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 4 to select the System functions.
3. Press 1 to select Date & Time.
4. Press YES to change the time format (12 or 24 hour). If the format is correct, press NO [Go to step 7].
1=Program 2=... Cncl = Exit
4=System 5=... Cncl = Exit 1=Date & Time ... Cncl = Exit Chg Time Format Yes or No ?
5. The current display mode is shown. Press YES to accept it [Go to step 7]. Press NO to change it.
Time format = 12 hr OK? (Y/N)
6. Press 1 to change to 12 hour format or press 2 to change to 24 hour format. Confirm the change [Go to step 8].
Entr Time Format 1=12hr 2=24hr
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600 Series Programming Manual
7. If you want to adjust the system time, press YES. If the time is correct, press NO [Go to step 9].
8. Time is entered in the format HHMM for both 12 and 24 hour formats. Single digits must have a preceding zero entered (e.g., 8:30 is entered as 0830). Note: The actual time on the system clock is not changed until performing step 14 below, so you may wish to set the clock ahead, allowing for time to complete the Date and time setting before initiating the system clock. 12 hour format - Enter the time then press ENTR. You are then asked to specify am or pm. Choose 1 for am, or 2 for pm. Press ENTR.
Change Time Yes or No?
Entr Time (hhmm) Cncl=Exit > _
Enter 1=am 2=pm
24 hour format - Enter the time then press ENTR. This format does not use am and pm so remember that 1:00 pm is entered as 1300.
9. If you want to adjust the date, press YES. If you do not want to change the date press NO [Go to step 11].
10. The date format is MMDDYY. Single digit numbers must have a preceding zero entered (i.e., January 3, 2001 is entered as 010301). Enter the correct date, then press ENTR. Note: Years from 1980 to 2079 are recognized by the 600 Series controller as valid. Entries of 80 to 99 are recognized as the years 1980 to 1999. Entries of 00 to 79 are recognized as the years 2000 to 2079. For more information, see Year 2000 compliance on page 6. Press CNCL to go back to step 9.
11. If you want to change the Daylight Savings Time, press YES. If it is correct, press NO [Go to step 14].
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Change Date Yes or No ?
Entr Date Can=Ex (mmddyy) > _
Chg Daylite Save Yes or No ?
600 Series Programming Manual
12. Verify the current setting. If it is correct, press YES [Go to step 14]. To change it, press NO.
Daylight Savings Disabled Ok? (Y/N)
13. Press 1 to disable or 2 to enable Daylight Savings Time [Go to step 12].
Enter 1=Disable 2=Enable Dl Save
14. Pressing ENTR now will initiate the changes you have made to the date and time settings. Pressing NO will cancel all changes. Note: If you do not make any changes under Date and time setting, you will not see this display and should go to step 15.
Entr = Set Clock Cncl = Abort
15. Press CNCL 3 times and then YES to exit the Programming Mode.
Astronomical clock setup Refer to the Program Planning section first for a discussion on setting up the astronomical clock. The System Information Worksheet should be completed before performing the following procedure. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 4 to select the System functions.
3. Press 2 to select Astro Clk Setup.
4. Verify the latitude (the factory default latitude is for Chicago, IL). If this is correct, press YES [Go to step 7]. Press NO to change the value.
5. Enter the latitude for your location in the format DDMM (see Latitude and Longitude charts in the Appendix). For single digit values, you must enter a preceding zero (e.g., 35°5' is as entered 3505). Press ENTR.
1=Program 2=... Cncl = Exit
4=System 5=... Cncl = Exit 2=Astro Clk ... Cncl = Exit
Latitude = 41:52N Ok? Y/N
Enter Latitude ddmm > _
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600 Series Programming Manual
6. Enter 0 for Northern or 1 for Southern hemisphere [Go to step 4].
7. Verify the longitude. If this is correct, press YES [Go to step 10]. Press NO to change the value.
8. Enter the longitude for your location in the format DDDMM (see Latitude and Longitude charts in the Appendix). For single or double digit values, you must enter preceding zeros (e.g., 71° 3' is entered as 07103). Press ENTR.
9. Enter 0 for Western or 1 for Eastern hemisphere [Go to step 7].
10. Verify the GMT offset. If the GMT offset is correct, press YES [Go to step 12]. If you need to change the GMT offset, press NO.
Longitude = 87:38W Ok? Y/N
Enter Longitude dddmm > _
Enter Direction 0=W 1=E Can=Exit
GMT Offset = -1 Ok ? (Y/N)
11. Press 1, 2 or 3 to adjust the GMT offset [Go to step 10].
Enter 1=0 2=+1 3=-1 Cncl=Exit
12. Press YES to immediately initiate the changes made. If you press NO, the changes will be made at midnight of the current day. Note: If you do not make any changes under Astronomical clock setup, you will not see this display and should go to step 13.
Initiate Sched. Changes ? (Y/N)
13. Press CNCL 3 times and then YES to exit the Programming Mode.
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Enter Direction 0=N 1=S Can=Exit
600 Series Programming Manual
All On / All Off switch input programming Before proceeding, refer to the “All On/All Off” discussion on page 4. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
1=Program 2=... Cncl = Exit
2. Press 1 to select the Switches functions.
1=Switches 2=... Cncl = Exit
3. Press 2 to select All On / All Off switch.
2=All On/Off ... Cncl = Exit
4. Verify that the switch type is correct (the factory default setting is momentary). Press NO to change it. Press YES to accept it [Go to step 6].
5. Press 1 to select Main. (maintained switch used) or 2 to select Mom. (momentary switch used) [Go to step 4].
All On/Off Swi = Moment. Ok? Y/N
Enter Sw. Mode 1=Main. 2=Mom.
6. Press CNCL 3 times and then YES to exit the Programming Mode.
Occupancy warning time programming The occupancy warning time is a system-wide function and all loads in a panel will have the same occupancy warning time. This function will blink the lights up to 30 minutes prior to a scheduled off time, or when you use the Occupancy Warning on Switch Off function. If the time is set to 0 minutes, the occupancy warning function is disabled. The procedure consists of two parts: • Selecting the loads for which the warning will be given • Establishing the occupancy warning time 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 3 to select Load functions.
1=Program 2=... Cncl = Exit
3=Loads 4=... Cncl = Exit
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600 Series Programming Manual
3. Press 3 to select Occupancy Warning.
4. Press 1 to Select Loads. Press 2 to set Time [Go to step 7]. When all changes are complete, press CNCL to exit [Go to step 9].
5. The existing selected loads are displayed. Press YES to accept [Go to step 4]. Press NO to modify the settings.
1=Select Loads 2=Time Can=Exit
Lds Pgmd Ok? Y/N No Loads Pgmed
6. Repeat this step for all loads that are affected. After all loads have been adjusted, press ENTR [Go to step 5]. To add a load, enter the load number, then press ENTR. To delete an existing load, enter the load number, then press CNCL. Note: Only enabled loads can be selected to give occupancy warning. Selecting a disabled load will cause the 600 panel to display an error message.
Enter=Add, Can=Del Enter Load # >_
7. The existing setting is displayed (the factory default setting is 0 minutes). Press YES to accept the displayed value [Go to step 4]. Press NO to change the value.
Occ. Warn. Time = 0 Min Ok? Y/N
8. Enter a value from 00 to 30 minutes for the occupancy warning time then press ENTR [Go to step 7].
Enter Occ. Warn. Time (mm) >_
9. Press CNCL 3 times and then YES to exit the Programming Mode.
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3=Occ. Warning Cncl = Exit
600 Series Programming Manual
Load duty-cycle setup This procedure sets how fast multiple loads are turned on or off when multiple loads are switched by the same command or at the same time (for more information on load duty-cycle, see page 5). The choices you are allowed will depend upon the type of controller you have and the type of output devices you’re using. Use the chart below as a guide to set the correct duty-cycle based on how the panel is configured. Note: The settings you may choose from the chart below are for the maximum numbers of loads per second that will turn on or off. You can, however, choose a value that is lower than the maximum. Available choices will be displayed on the LCU. Duty-Cycle 60 per second 30 per second 15 per second 15 per second 10 per second 10 per second
Zero Cross State disabled enabled disabled disabled enabled enabled
1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 3 to select Load functions.
3. Press 2 to select Load Duty-Cycle.
Device all relays all relays all breakers mixed all breakers mixed 1=Program 2=... Cncl = Exit
3=Loads 4=... Cncl = Exit 2=Load Duty... Cncl = Exit
4. The existing setting is displayed. Press YES to accept the value [Go to step 6]. Press NO to change the value.
Load Duty-Cycle= 10 Lds/Sec ok?
5. Enter one of the listed choices then press ENTR [Go to step 4]. Note: The display on the panel may not be identical to what is shown in this example. Your display will show the choices available for your current configuration; it will not list unavailable choices.
60,30,15,10,5,1 Ent Lds/Sec>_
6. Press CNCL 3 times and then YES to exit the Programming Mode.
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600 Series Programming Manual
Priority scheme setup Use this procedure to select the appropriate priority scheme for your panel. For more information on priority schemes, see page 9. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu. 2. Press 4 to select the System menu. 3. Press 3 to select Priority Scheme setup.
1=Program 2=... Cncl = Exit
4=System 5=... Cncl = Exit 3=Priority Scheme> Cncl = Exit
4. Verify that the selected Priority Scheme is correct. “Last” means Last Action priority. “Or” means Or priority. If correct, press YES [Go to step 5]. To select a new Priority Scheme, press NO.
Priority Action= Last OK? (Y/N)
5. Press 1 to select Last Action priority or press 2 to select Or priority [Go to step 3].
Enter Action: 1=Last 2=Or
6. Press CNCL 3 times and then YES to exit the Programming Mode.
LCI load programming The LCI feature is a panel-wide function—all LCI loads in a panel will have the same pulse width and sweep interval. This function will turn LCI loads off at programmed ‘off’ times for the length of the pulse width (1-10 seconds) on the programmed sweep interval cycle (1 minute to 2 hours). The loads will then turn back on, allowing occupants to use LCI switches to operate lights. The procedure consists of four parts: • Defining LCI loads • Determining “Pulse Width” (1 to 10 seconds) • Determining “Sweep Interval” (1 minute to 2 hours) • Establishing normal occupancy time Note: Normal occupancy time means the period or periods of time that lights are typically on and loads are programmed to be on continuously. Outside of normal occupancy time, LCI loads remain on but cycle off at the programmed intervals. Programming normal occupancy times is done through Time schedule programming on page 39. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu. 34
1=Program 2=... Cncl = Exit
600 Series Programming Manual
2. Press 3 to select Load functions.
3. Press 4 to select LCI Device Setup.
3=Loads 4=... Cncl = Exit 4=LCI Device ... Cncl = Exit
4. Verify that the loads listed as LCI loads are correct. The second line will scroll, if necessary, to display all assigned loads. If correct, press YES [Go to step 6]. To change load assignments, press NO.
LCI Loads OK? Y/N No Loads Pgmed
5. Repeat this step for all loads that are affected. After all loads have been adjusted, press ENTR [Go to step 4]. To add a load, enter the load number, then press ENTR. To delete a load, enter the load number, then press CNCL. Note: Only enabled loads can be selected as LCI loads. Selecting a disabled load will cause the 600 panel to display an error message.
Ent=Add, Can=Del Enter Load #> _
6. Verify that the Pulse Width is correct (default is 10 seconds). If correct, press YES [Go to step 8]. To change, press NO.
Pulse Width= 10 Sec OK? Y/N
7. Enter new Pulse Width, then press ENTR [Go to step 6]. Pulse width can be from 1 to 10 seconds.
Enter Pulse Width Max = 10 Sec> _
8. Verify that the LCI Sweep Interval is correct (default is 2 hours). If correct, press YES [Go to step 10]. To change, press NO.
Sweep Interval = 2:00 OK? Y/N
9. Enter new Sweep Interval in the format HMM, then press ENTR [Go to step 8]. Sweep Interval can be from 1 minute to 2 hours.
Entr Sw Interval Max 2:00> _
10. Press CNCL 3 times and then YES to exit the Programming Mode. To complete LCI load programming, go to Time schedule programming on page 39 to establish normal occupancy time. 35
600 Series Programming Manual
Switch input programming Complete the Switch Input Assignment Worksheet before programming switch inputs. This procedure is used to program the matrixable switch inputs to any combination of the maximum number of output loads the panel controls, except those loads designated as LCI devices. There are 48 switch inputs available to a 600M or 600P panel. The 600H panel contains 24 switch inputs. Switches can provide either on/off control or a time delay–similar to a mechanical timer. During the programming procedure you also must specify whether each switch input will use the On Only/Off Only or Occupancy Warning on Switch Off features. See System functionality to review these features. The factory default setting is for momentary switch inputs with switch input #1 programmed for load #1, switch input #2 programmed for load #2, etc. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 1 to select the Switches function.
1=Switches 2=... Cncl = Exit
3. Press 1 to select Normal switch inputs.
1=Normal 2=... Cncl = Exit
4. Enter the switch input number you are programming, then press ENTR.
Enter Switch # Cncl=Exit > _
5. Press 1 to erase the existing program for this switch and enter a new program [Go to step 7]. Press 2 to edit the existing program [Go to step 7]. Press 3 to copy the programming from another switch input.
6. Enter the switch number that is being copied from, then press ENTR.
7. The current programming for the switch appears on the second line of the screen. If it is too long to fit, the screen will scroll. If it is correct, press YES [Go to step 14]. To make changes, press NO.
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1=Program 2=... Cncl = Exit
Sw: New=1,Edit=2 Copy=3, Can=Exit
Enter Switch # To Copy From >_
Sw# 1 Ok? Y/N Moment.
600 Series Programming Manual
8. Enter 1 to set the switch input for a maintained contact switch or 2 to set it for a momentary contact switch.
Enter Sw Type 1=Main. 2=Mom.
9. Off Only Switch prevents this switch input from turning on the load(s) assigned to it. Press YES to define this switch as Off Only [Go to step 13] or press NO.
Off Only Switch? (Y/N)
10. Press YES to specify that this is a time delay switch. Press NO if it is not [Go to step 12].
Time Delay Sw ? (Y/N)
11. Enter the time delay in the format HMM then press ENTR. For example, to enter a time delay of 1 hour and 0 minutes, enter 100. The maximum time is 9 hours and 59 minutes (959).
Enter Time (hmm) Cncl=Exit >_
12. On Only Switch prevents this switch input from turning off the load(s) assigned to it. Press YES to define this switch as On Only [Go to step 7] or press NO.
On Only Switch? (Y/N)
13. Press YES to select this switch to give an occupancy warning when turned off [Go to step 7]. Press NO for no warning [Go to step 7]. Note: In the Occupancy warning time programming procedure on page 31 you must also specify the individual loads that you want to blink and enter the warning time before Occupancy Warning on Switch Off will blink the lights.
Occ. Warn On Sw. Off ? (Y/N)
14. Verify that the listed loads assigned to this switch input are correct. The second line of this screen will scroll, if necessary, to display all assigned loads. If they are correct, press YES [Go to step 16]. To change load assignments, press NO.
Ld Pgmd Ok? Y/N 1
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600 Series Programming Manual
15. Repeat this step for all loads that are affected. After all loads have been adjusted, press ENTR a second time [Go to step 14]. To add a load, enter the load number you wish to change then press ENTR. To delete an existing load, enter the load number, then press CNCL. Note: Only enabled loads can be assigned to switch inputs. Selecting a disabled load will cause the 600 panel to display an error message.
Ent=Add, Can=Del Enter Load # >_
16. At this point the programming of the switch input to load(s) is complete. Press 1 to review the selections [Go to step 7]. Press ENTR to accept the programming. Press CNCL to abort the programming for this switch input. CAUTION: If CNCL is selected now, all changes you have made to this point will be erased and the previous program will remain.
Enter: 1=Review Ent=Ok Can=Abort
17. Press YES to program another switch input [Go to step 4]. Press NO if you are done.
18. Press CNCL 3 times and then YES to exit the Programming Mode.
38
Do Another ? Yes or No ?
600 Series Programming Manual
Time schedule programming This procedure is used to program time-of-day schedules to the individual loads. Here you can program the daily and holiday schedules for each load which can have up to 8 on/off times per day. A scheduled time can consist of either clock times or astronomical times. Use the copy functions to improve the efficiency and accuracy of programming. Programming procedures for holiday and weekday schedules are identical. As with all programming in this manual, planning is the key. Refer to the Load Time Schedule Worksheets in the Appendix to help make programming easier and less confusing.
Entering and revising a time schedule Note: You will need to know what time format (12 hour or 24 hour) the controller is set at before performing this procedure. If the display shows an ‘a’ or ‘p’ after the time, a 12 hour format is being used. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 2 to select the Times function.
3. Press 1 to Edit Times.
4. Enter the load number you are programming, then press ENTR. Note: Only enabled loads can be programmed with time schedules. Selecting a disabled load will cause the 600 panel to display an error message.
5. Press 2 to edit the schedule. To copy an existing schedule from a different load, proceed to the Copying a time schedule procedure on page 43.
6. Press 1 to enter a weekly schedule (i.e., Sunday through Saturday). Press 2 to enter a holiday schedule [Go to Step 8]. When all programming for this load is complete, press CNCL [Go to step 20].
1=Program 2=... Cncl = Exit
2=Times 3=... Cncl = Exit 1=Edit Times ... Cncl = Exit
Enter Load # Cncl=Exit > _
Enter 1=Copy Ld 2=Edit Cncl=Exit
Enter 1=Weekly 2=Hol Sch Can=Ex
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600 Series Programming Manual
7. Enter the day of the week by pressing the corresponding key (Sun through Sat) on the keypad then press ENTR [Go to step 9].
Enter Day (ie Sun) Cncl=Exit
8. Enter the holiday number, then press ENTR.
Enter Holiday # Can=Ex (1-40) >_
9. Press 1 to erase the existing program for this load so you can enter a new program. Press 2 to edit the existing program. To copy an existing schedule from the current load, proceed to the Copying a time schedule procedure on page 43.
Tm: New=1,Edit=2 Copy=3, Can=Exit
10. The current programming for the load appears on the second line of the screen. You will see all of the individual on/off times (up to 8) scrolling along the bottom of the display. Note: By default, no times will be programmed initially. Therefore, no scheduled control of the loads will take place. If the programming is correct, press YES [Go to step 6]. To change the program, press NO.
Tms Pgmd Ok? Y/N No Times Pgmd
11. Note: You now can review and change each of the 8 time settings. In this step you will go through each of the 8 time settings. Pressing YES will advance you through each setting if there are no changes to be made. Pressing NO allows you to edit the time settings. Verify the setting for this time setting. If it is correct, press YES. Repeat this step for all 8 time settings. After the last time setting (#8), go to step 10. To change the time setting, press NO.
Time# 1 Ok?Y/N Not Programmed
12. Press 1 to use a clock time format. Press 2 to use an astronomical time format [Go to step 15].
40
Enter 1=Clk Time 2=Astro Can=Exit
600 Series Programming Manual
Schedule clock time 13. Time is entered in the format HHMM for both 12 and 24 hour formats. Note: The actual time of the schedule is not changed until performing step 24 below. 12 hour format - Enter the time then press ENTR. You are then asked to specify am or pm. Choose 1 for am, or 2 for pm.
Entr Time (hhmm) Can=Exit > _
Enter 1=am 2=pm
24 hour format - Enter the time then press ENTR. This format does not use am and pm so remember that 1:00 pm is entered as 1300.
14. Enter 1 to turn the load on or 2 to turn the load off at the programmed time [Go to step 11].
Enter
1=Turn on 2=Turn off
Schedule astronomical time 15. Each astronomical time is referenced either to the calculated sunrise or sunset time. Press 1 for sunrise. Press 2 for sunset.
Enter 1=Sunrise 2=Sunset Can=Ex
16. An offset from the calculated sunrise or sunset time must be entered. If no offset is used, enter 000. Enter the time in the format HMM, then press ENTR. Offset can be from 0 minutes (000) to 2 hours (200).
Enter Time (hmm) Max 2:00 > _
17. Press 1 to set the offset before sunrise or sunset. Press 2 to set the offset after sunrise or sunset.
Enter 1=Before 2=After Sunrise
18. Press 1 to turn the load on at the programmed time. Press 2 to turn the load off at the programmed time.
Enter
1=Turn on 2=Turn off
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600 Series Programming Manual
19. Verify the entry (e.g., “SR-01:00” means 1 hour before sunrise; “SS+02:00” means 2 hours after sunset). Press YES if correct [Go to step 11]. Press NO if incorrect [Go to step 12].
Time# 1 Ok? (Y/N) SR-01:00=On
20. Press YES to program another load [Go to step 4]. Press NO if you are done.
Do Another ? Yes or No ?
21. At this point, the time settings for daily and holiday schedules have been entered. If you select YES, all affected loads will immediately respond with the new settings. If you are makings changes that you do not want to initiate until later, press NO. Note: If you do not make any changes under Time schedule programming, you will not see this display and should go to step 22. Press YES to initiate the schedule changes immediately. If you press NO, changes will be made at midnight of the day you are programming.
Initiate Sched. Changes ? (Y/N)
22. Press CNCL 3 times and then YES to exit the Programming Mode.
Initiating a time schedule This procedure will allow you to immediately initiate the changes you have made to the load’s daily and holiday time schedules. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 2 to select the Times function.
3. Press 2 to initiate time schedule changes.
4. Press CNCL 3 times and then YES to exit the Programming Mode.
42
1=Program 2=... Cncl = Exit
2=Times 3=... Cncl = Exit
2=Initiate Times Cncl = Exit
600 Series Programming Manual
Copying a time schedule The Copy function is a very helpful feature, but it can cause confusion if not understood completely. Please read this section before attempting to copy time schedules and loads. The copy function has two options: • Copying a time schedule from one day to another day for the same load. • Copying an entire time schedule for one load to another load. Both copy functions allow you to program identical time schedules and identical load schedules without re-keying each programming step. When you have two schedules that are slightly different, you can copy the program and then edit in the changes. This saves substantial programming time and reduces the possibility for errors. When you copy a program to an already programmed load, the new program cancels out the existing program. For example, Load #1 has a schedule for Monday only and Load #2 has schedules for Tuesday through Friday only. If you copy the schedule for Load #1 to Load #2, both Load #1 and Load #2 will have a schedule for only Monday. The schedules for Tuesday through Friday on Load #2 were erased. Proper planning allows you to best utilize the copy function. Complete the Load Time Schedule Worksheets for all loads for each day of the week and for holidays, then analyze them for common elements. It is recommended that you: 1. Program the most common load configuration completely on one day of the week then use the Copy from day to day function to copy the configuration to the remaining days of the week and to the holidays. 2. Use the Copy entire schedule function to copy the entire schedule from one load to the remaining loads. 3. Finally, return to the loads that have slightly different schedules and edit in the changes using the Entering and revising a time schedule procedure.
Copy from day to day (for the same load) Use this procedure to copy a daily or holiday time schedule to other days or holidays for the same load. After copying, if changes need to be made to the individual time schedules, edit them using the Entering and revising a time schedule procedure. Note: You will need to know what time format (12 hour or 24 hour) the controller is set at before performing this procedure. If the display shows an ‘a’ or ‘p’ after the time, a 12 hour format is being used. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
1=Program 2=... Cncl = Exit
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600 Series Programming Manual
2. Press 2 to select the Times function.
3. Press 1 to Edit Times.
44
2=Times 3=... Cncl = Exit 1=Edit Times ... Cncl = Exit
4. Enter the load number you are programming, then press ENTR. Note: Only enabled loads can be programmed with time schedules. Selecting a disabled load will cause the 600 panel to display an error message.
Enter Load # Cncl=Exit > _
5. Press 2 to edit the load.
Enter 1=Copy Ld 2=Edit Cncl=Exit
6. Press 1 to choose a day of the week. Press 2 to choose a holiday [Go to step 13]. When all programming for this load is complete, press CNCL [Go to step 18].
Enter 1=Weekly 2=Hol Sch Can=Ex
7. Press the day you want to copy to, then press ENTR.
Ent Day (ie Sun) Cncl=Exit > _
8. Press 3 to choose copy.
Tm: New=1,Edit=2 Copy=3, Can=Exit
9. Press 1 if you want to copy a weekly schedule. Press 2 if you want to copy a holiday schedule [Go to step 11].
Enter 1=Weekly 2=Hol Sch Can=Ex
10. Press the day you want to copy from, then press ENTR [Go to step 12].
Ent Day (ie Sun) Cncl=Exit > _
11. Enter the holiday number you want to copy from, then press ENTR.
Enter Holiday # Can=Ex (1-40) >_
12. The screen displays the program that is now assigned for the day copied to. If you need to edit the schedule, go to step 14 of Entering and revising a time schedule. When finished editing, return to this step. Press YES to accept this program [Go to step 6].
Tms Pgmd Ok? Y/N 8:00a=ON
600 Series Programming Manual
13. Enter the holiday number you want to copy to, then press ENTR.
Enter Holiday # Can=Ex (1-40) >_
14. Press 3 to choose copy.
Tm: New=1,Edit=2 Copy=3, Can=Exit
15. Press 1 to copy a weekly schedule [Go to step 17]. Press 2 to copy a holiday schedule.
Enter 1=Weekly 2=Hol Sch Can=Ex
16. Enter the holiday number you want to copy from, then press ENTR [Go to step 12].
Enter Holiday # Can=Ex (1-40) >_
17. Press the day you want to copy from, then press ENTR [Go to step 12].
Ent Day (ie Sun) Cncl=Exit > _
18. From this screen you can select another load to program. To do so, press YES [Go to step 4]. If all programming is complete, press NO.
Do Another ? Yes or No ?
19. Press YES to immediately initiate the changes made. If you press NO, the changes will be made at midnight of the current day.
Initiate Sched. Changes ? (Y/N)
20. Press CNCL 3 times and then YES to exit the Programming Mode.
Copy entire schedule (from one load to another load) It is suggested that you perform this procedure after you have a complete weekly and/or holiday schedule programmed for a load. The following steps will copy the entire existing schedule, including all days of the week and holidays, from one load to another. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 2 to select the Times function.
1=Program 2=... Cncl = Exit
2=Times 3=... Cncl = Exit
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600 Series Programming Manual
3. Press 1 to Edit Times.
4. Enter the load number you want to copy to, then press ENTR. Note: Only enabled loads can be programmed with time schedules. Selecting a disabled load will cause the 600 panel to display an error message.
Enter Load # Cncl=Exit > _
5. Press 1 to choose copy.
Enter 1=Copy Ld 2=Edit Cncl=Exit
6. Enter the load number you want to copy from, then press ENTR.
Enter Load # To Copy Cncl=Ext>_
7. You have now finished copying a load. From this display you can press 1 or 2 to review the weekly or holiday schedule you just copied. Press CNCL to continue.
Enter 1=Weekly 2=Hol Sch Can=Ex
8. From this display you can select another load to program. To select another load to program, press YES [Go to step 4]. If all programming is complete, press NO.
Do Another ? Yes or No ?
9. Press YES to immediately initiate the changes made. If you press NO, the changes will be made at midnight of the current day.
Initiate Sched. Changes ? (Y/N)
10. Press CNCL 3 times and then YES to exit the Programming Mode.
46
1=Edit Times ... Cncl = Exit
600 Series Programming Manual
Holiday date programming Before programming holiday dates, complete the Holiday Assignment Worksheet found in the Appendix. Programming holiday schedules consists of two steps. 1. Identifying the holiday dates. These dates must be reviewed and updated, if required, each year to reflect the fact that the calendar date of many holidays shifts from year to year. 2. Programming holiday time schedules H1 through H40 (completed in the Time schedule programming section). Once you have identified the holiday dates, you can then create the holiday schedule associated with the dates. When a holiday date arrives, instead of running the normal day of the week schedule, the programmed holiday schedule will run for the number of days you have chosen. 1. Log on by entering the Programming Mode password. From the Main Menu, press 1 to select the Program sub menu.
2. Press 5 to select the Holidays function.
1=Program 2=... Cncl = Exit
5=Holidays ... Cncl = Exit
3. Holidays numbered 1 to 40 are allowed. Enter the holiday number, then press ENTR. If you are finished programming holidays, press CNCL to continue [Go to step 8].
Enter Holiday # Can=Ex (1-40) >_
4. This step displays the date and the length of the holiday period (mm/dd-LL). If the information is incorrect, press NO to edit it. If the information is correct, press YES to accept it [Go to step 7].
Holiday # 1 = 00/00-00 Ok? Y/N
5. Enter the holiday date in the format MMDD. Precede single digit numbers with zeros (e.g., January 1 is entered as 0101), then press ENTR.
Entr Holidy Date Can=Ex
6. Enter the number of days the holiday schedule will run. For example, if the holiday is January 1 and lasts for one day, the entry would be 1. Press ENTR [Go to step 4].
Enter # Days To Run (1-30) > _
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600 Series Programming Manual
7. Continue until all the holiday dates that you want programmed are entered. Press YES to do another holiday [Go to step 3]. Press NO when all holidays are entered.
Do Another ? Yes or No ?
8. Note: If you do not make any changes under Holiday date programming, you will not see this display and should go to step 9. Press YES to immediately initiate the changes made. If you press NO, the changes will be made at midnight of the current day.
Initiate Sched. Changes ? (Y/N)
9. Press CNCL 2 times and then YES to exit the Programming Mode.
Alarm programming Use this procedure to program alarm conditions. See page 7 for a detailed discussion on alarms.
Setting alarms 1. Log on by entering the Programming Mode password. From the Main Menu, press 2 to select the Alarms sub menu.
48
2=Alarms 3=... Cncl = Exit
2. Press 1 to select loads. When all loads are programmed, press CNCL [Go to step 6].
1=Sel Lds 2=View 3=Reset Can=Exit
3. Press 1 to program Unexpected Change alarms. Press 2 to program Command Failure alarms.
1=Unexp. Chg. 2=Cmd. Failure
600 Series Programming Manual
4. The existing setting is displayed with the load circuits programmed scrolling across the second line of the screen. Note: By default, all enabled loads are programmed to report both Unexpected Change and Command Failure alarms. If the loads are correct, press YES [Go to step 2]. To change the loads alarmed, press NO.
Lds Pgmd Ok? Y/N 1,2,...
5. Repeat this step for all loads that are affected. After all loads have been added or deleted, press ENTR a second time [Go to step 4]. To add a load, enter the load number, then press ENTR. To delete an existing load, enter the load number, then press CNCL. Note: Only enabled loads can be programmed to display alarms. Selecting a disabled load will cause the 600 panel to display an error message.
Ent=Add, Can=Del Enter Load # > _
6. Press CNCL once and then YES to exit the Programming Mode.
Viewing and resetting alarms When an alarm condition is activated, the second line of the log on screen alternates between the current time and ‘Alarms Pending’: MicroLite 600 Alarms Pending
1. Log on by entering the programming Mode password. From the Main Menu, press 2 to select the Alarms sub menu.
2. Press 2 to View the current alarm status. Press 3 to Reset the alarms [Go to step 4]. Press CNCL to exit [Go to step 5].
2=Alarms 3=... Cncl = Exit
1=Sel Lds 2=View 3=Reset Can=Exit
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600 Series Programming Manual
3. The second line of the display lists all pending alarms. The display will scroll, if necessary, to display the alarms. In this example, Load 1 has caused a Command Failure (CF) alarm and Load 2 has caused an Unexpected Change (UC) alarm. Press ENTR to leave this screen [Go to step 2].
4. Press YES to reset all active alarms or press NO to leave the alarms activated [Go to step 2].
Alm Lds Ent=Exit 1=CF,2=UC,...
Are You Sure ? Yes or No ?
5. Press CNCL 1 time and then YES to exit the Programming Mode.
Alarm auto reset programming Use the following procedure to enable or disable the auto reset feature. 1. Log on by entering the Programming Mode password. From the Main Menu, press 2 to select the Alarms sub menu.
2. Press 4 to select Alarm Options.
4=Options > ... Cncl = Exit
3. Verify that the Auto Reset setting is correct. If correct, press Yes [Go to step 5]. To change, press No.
Auto Reset Enabled OK? Y/N
4. Enter 1 to enable or 2 to disable Auto Reset [Go to step 3].
1=Enable 2=... Cncl = Exit
5. Press CNCL 2 times and then YES to exit the Programming Mode.
50
2=Alarms 3=... Cncl = Exit
600 Series Programming Manual
Monitoring and controlling loads The LCU provides the ability to monitor and change the status of loads controlled by the panel either individually or as ‘all loads on / all loads off.’ No ‘select’ group of loads can be controlled in this procedure.
Monitoring loads 1. Log on by entering the Programming Mode password. From the Main Menu, press 3 to select the Monitor & Ctrl sub menu.
2. Press 1 to View Loads.
3. Two monitoring options are available. Press 1 to view all loads. Press 2 to view one load [Go to step 5]. Press CNCL to exit [Go to step 7].
4. The second line of this screen scrolls to show the current status of all loads. Press ENTR when done [Go to step 3].
5. Enter the load number and press ENTR.
6. The screen displays the status of the selected load. Press ENTR when done [Go to step 3].
3=Monitor & C... Cncl = Exit
Enter 1=View Lds 2=Chg Lds Can=Ext
Enter 1=View All 2=One Ld Can=Ext
Enter = Exit 1=On,2=Off,3=...
Enter Load # To View Can=Ext >_
Enter = Exit Load #1 = On
7. Press CNCL 2 times and then YES to exit the Programming Mode.
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600 Series Programming Manual
Controlling loads 1. Log on by entering the Programming Mode password. From the Main Menu, press 3 to select the Monitor & Ctrl sub menu.
2. Press 2 to Change Loads.
3. To change the status of all loads, press 1. To change the status of one load, press 2 [Go to step 6]. Press CNCL to exit [Go to step 8].
4. Press 1 to turn all loads off. Press 2 to turn all loads on.
Entr 1=View Lds 2=Chg Lds Can=Ext
Chg 1=All Lds 2=One Ld Can=Ext
Enter 1=All Off 2=All On Can=Ext
5. Press YES to perform the operation or press NO to cancel it [Go to step 3].
Are You Sure ? Yes or No ?
6. Enter the load number to change, then press ENTR. Note: Only enabled loads can be selected for control. Selecting a disabled load will cause the 600 panel to display an error message.
Entr Ld # To Chg Can=Exit > _
7. Press 1 to turn the load off. Press 2 to turn the load on [Go to step 3].
Enter 1=Turn Off 2=Turn On Can=Ex
8. Press CNCL 2 times and then YES to exit the programming mode.
52
3=Monitor & C... Cncl = Exit
600 Series Programming Manual
Appendix Save the following programming sheets as originals. Make photocopies when filling out the programming information.
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600 Series Programming Manual
System Information Worksheet Panel information Panel ID#:
Job name:
City:
State:
All On / All Off switch:
Maintained
Momentary
(circle one)
Occupancy warning time*:
minutes (30 minute maximum)
Time format:
24 Hour
12 Hour
(circle one)
* The Occupancy Warning Time is a system-wide function and affects all designated loads. Only one Occupancy Warning Time is allowed.
Geographical coordinates Refer to the Latitude and Longitude charts for a list of cities and their coordinates. Latitude:
Degrees
Minutes
North or South (circle one)
Longitude:
Degrees
Minutes
East or West
GMT Offset:
54
(circle one)
600 Series Programming Manual
Latitude and Longitude of Selected North American Cities City
Latitude dd mm
Longitude ddd mm
City
Latitude dd mm
Longitude ddd mm
Abilene, TX
32
27 N
099
43 W
Detroit, MI
42
19 N
083
02 W
Albany, NY
42
39 N
073
45 W
Dodge City, KS
37
45 N
100
01 W
Albuquerque, NM
35
05 N
106
39 W
El Paso, TX
31
45 N
106
29 W
Allentown, PA
40
36 N
075
28 W
Erie, PA
42
07 N
080
04 W
Anchorage, AK
61
10 N
149
59 W
Eugene, OR
44
03 N
123
05 W
Asheville, NC
35
35 N
082
33 W
Eureka, CA
40
48 N
124
09 W
Atlanta, GA
33
45 N
084
23 W
Evansville, IN
37
58 N
087
34 W
Atlantic City, NJ
39
21 N
074
25 W
Flagstaff, AZ
35
11 N
111
39 W
Augusta, GA
33
28 N
081
58 W
Ft. Smith, AR
35
23 N
094
25 W
Austin, TX
30
16 N
097
44 W
Fort Wayne, IN
41
04 N
085
06 W
Baltimore, MD
39
17 N
076
36 W
Fresno, CA
36
44 N
119
47 W
Bangor, ME
44
48 N
068
46 W
Grand Junction, CO
39
04 N
108
33 W
Baton Rouge, LA
30
26 N
091
11 W
Grand Rapids, MI
42
58 N
085
40 W
Billings, MT
45
47 N
118
30 W
Great Falls, MT
47
29 N
111
18 W
Biloxi, MS
30
23 N
088
53 W
Green Bay, WI
44
30 N
088
00 W
Birmingham, AL
33
31 N
086
48 W
Greensboro, NC
36
04 N
079
47 W
Bismarck, ND
46
48 N
100
47 W
Greenville, SC
34
50 N
082
24 W
Boise, ID
43
37 N
116
11 W
Harrisburg, PA
40
15 N
076
52 W
Boston, MA
42
21 N
071
03 W
Hartford, CT
41
46 N
072
40 W
Bowling Green, KY
36
59 N
086
26 W
Houston, TX
29
45 N
095
21 W
Buffalo, NY
42
52 N
078
52 W
Huntsville, AL
34
44 N
086
35 W
Butte, MT
46
01 N
112
32 W
Indianapolis, IN
39
46 N
086
09 W
Carson City, NV
39
10 N
119
46 W
Iowa City, IA
41
39 N
091
31 W
Cedar Rapids, IA
41
58 N
091
39 W
Jackson, MS
32
17 N
090
11 W
Charleston, SC
32
46 N
079
55 W
Jacksonville, FL
30
19 N
081
39 W
Charleston, WV
38
21 N
081
37 W
Joplin, MO
37
05 N
094
30 W
Charlotte, NC
35
13 N
080
50 W
Kansas City, MO
39
04 N
094
35 W
Chattanooga, TN
35
02 N
085
18 W
Kenosha, WI
42
35 N
087
50 W
Cheyenne, WY
41
08 N
104
49 W
Key West, FL
24
33 N
081
48 W
Chicago, IL
41
52 N
087
38 W
Knoxville, TN
35
57 N
083
55 W
Cincinnati, OH
39
06 N
084
30 W
Lafayette, IN
40
25 N
086
53 W
Cleveland, OH
41
29 N
081
41 W
Lansing, MI
42
44 N
084
33 W
Columbia, MO
38
57 N
092
19 W
Laredo, TX
27
30 N
099
30 W
Columbia, SC
34
00 N
081
02 W
Las Vegas, NV
36
10 N
115
08 W
Columbus, GA
32
28 N
084
59 W
Lexington, KY
38
02 N
084
29 W
Columbus, OH
39
57 N
083
00 W
Lincoln, NE
40
48 N
096
42 W
Concord, NH
43
12 N
071
32 W
Little Rock, AR
34
44 N
092
16 W
Corpus Christi, TX
27
47 N
097
23 W
Los Angeles, CA
34
03 N
118
14 W
Dallas, TX
32
47 N
096
47 W
Louisville, KY
38
14 N
085
45 W
Decatur, IL
39
50 N
088
56 W
Lowell, MA
42
38 N
071
19 W
Denver, CO
39
44 N
104
59 W
Lubbock, TX
33
35 N
101
50 W
55
600 Series Programming Manual City
Latitude dd mm
Longitude ddd mm
City
Latitude dd mm
Longitude ddd mm
Macon, GA
35
50 N
083
37 W
Sioux Falls, SD
43
32 N
096
43 W
Madison, WI
43
04 N
089
22 W
South Bend, IN
41
40 N
086
15 W
Memphis, TN
35
08 N
090
03 W
Springfield, IL
39
47 N
089
58 W
Miami, FL
25
46 N
080
11 W
Syracuse, NY
43
03 N
076
09 W
Milwaukee, WI
43
02 N
087
54 W
Tallahassee, FL
30
26 N
084
16 W
Minneapolis, MN
44
58 N
093
15 W
Tampa, FL
27
56 N
082
27 W
Mobile, AL
30
41 N
088
02 W
Terre Haute, IN
39
28 N
087
24 W
Nashville, TN
36
09 N
086
46 W
Toledo, OH
41
39 N
083
32 W
Newark, NJ
40
44 N
074
10 W
Trenton, NJ
40
13 N
074
46 W
New Bedford, MA
41
38 N
070
55 W
Tucson, AZ
32
13 N
110
58 W
New Orleans, LA
29
56 N
090
04 W
Tulsa, OK
36
09 N
095
59 W
New York, NY
40
45 N
073
59 W
Washington, DC
38
53 N
077
00 W
Niagara Falls, NY
43
05 N
079
03 W
Waterbury, CT
41
33 N
073
02 W
Norfolk, VA
36
51 N
076
17 W
Wichita, KS
37
41 N
097
20 W
Oakland, CA
37
48 N
122
15 W
Wilmington, DE
39
44 N
075
32 W
Ogden, UT
41
13 N
111
58 W
Wilmington, NC
34
14 N
077
56 W
Omaha, NE
41
15 N
095
56 W
Yuma, AZ
32
42 N
114
37 W
Orlando, FL
28
32 N
081
22 W
Pasadena, CA
34
08 N
118
08 W
Pensacola, FL
30
24 N
087
12 W
Peoria, IL
40
41 N
089
35 W
Philadelphia, PA
39
56 N
075
09 W
Phoenix, AZ
33
27 N
112
04 W
Pittsburgh, PA
40
26 N
080
00 W
Portland, OR
45
31 N
122
40 W
Portsmouth, NH
43
04 N
070
45 W
Pueblo, CO
38
16 N
104
36 W
Rapid City, SD
44
04 N
103
13 W
Raleigh, NC
35
46 N
078
38 W
Reno, NV
39
31 N
119
48 W
Richmond, VA
37
32 N
077
26 W
Rochester, NY
43
09 N
077
36 W
Rockford, IL
42
16 N
089
05 W
Sacramento, CA
38
34 N
121
29 W
St. Louis, MO
38
37 N
090
12 W
Saginaw, MI
43
25 N
083
56 W
Salem, OR
44
56 N
123
01 W
San Antonio, TX
29
25 N
098
29 W
San Diego, CA
32
42 N
117
09 W
San Francisco, CA
37
46 N
122
24 W
Santa Fe, NM
35
41 N
105
56 W
Savannah, GA
32
04 N
081
05 W
Seattle, WA
47
36 N
122
20 W
56
Load Configuration Worksheet # = Load Number
Panel ID #_________________________
Phase = A, B, C
Panel Power Phase: ________________
Type = MicroLite Relay (ML), Breaker (BR), Touch Plate Relay (TP) Alarm = Unexpected Change (UC), Command Failure (CF) #
Load Description
Type
Alarm
Phase
#
1
25
2
26
3
27
4
28
5
29
6
30
7
31
8
32
9
33
10
34
11
35
12
36
13
37
14
38
15
39
16
40
17
41
18
42
19
43
20
44
21
45
22
46
23
47
24
48
42
Load Description
Type
Alarm
Phase
Panel ID# __________________________
Holiday Assignment Worksheet Holiday Number
Mo./Day–# of Days (mm/dd–LL)
Description
Holiday Number
H1
H21
H2
H22
H3
H23
H4
H24
H5
H25
H6
H26
H7
H27
H8
H28
H9
H29
H10
H30
H11
H31
H12
H32
H13
H33
H14
H34
H15
H35
H16
H36
H17
H37
H18
H38
H19
H39
H20
H40
43
Mo./Day–# of Days (mm/dd–LL)
Description
Panel ID# __________________________
Switch Input Assignment Worksheet Input #
Assigned Loads
Switch Type (Maint./Mom.)
Time Delay
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
44
On Only / Off Only
Occ. Warn. On Switch Off (Y/N)
Priority Switch (Y/N)
Panel ID# __________________________
Switch Input Assignment Worksheet Input #
Assigned Loads
Switch Type (Maint./Mom.)
Time Delay
25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
45
On Only / Off Only
Occ. Warn. On Switch Off (Y/N)
Priority Switch (Y/N)
Load Time Schedule Worksheet Panel ID #: _______________
Programmer: ____________________________________
Time Schedule for: ________________
Last Updated: _____________________________
(Monday, Tuesday, H1, H2, etc.)
1
2
3
4
5
6
7
8
9
10
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 46
Sunset
Sunrise
After
Before
Astro
Time/ Offset
Off
#
On
Sunset
Sunrise
After
Time/ Offset
Before
#
Astro
Load Description and Panel/Circuit (Source)
Off
Load #
On
On / Off Times
Load Time Schedule Worksheet Panel ID #: _______________
Programmer: ____________________________________
Time Schedule for: ________________
Last Updated: _____________________________
(Monday, Tuesday, H1, H2, etc.)
11
12
13
14
15
16
17
18
19
20
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 47
Sunset
Sunrise
After
Before
Astro
Time/ Offset
Off
#
On
Sunset
Sunrise
After
Time/ Offset
Before
#
Astro
Load Description and Panel/Circuit (Source)
Off
Load #
On
On / Off Times
Load Time Schedule Worksheet Panel ID #: _______________
Programmer: ____________________________________
Time Schedule for: ________________
Last Updated: _____________________________
(Monday, Tuesday, H1, H2, etc.)
21
22
23
24
25
26
27
28
29
30
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 48
Sunset
Sunrise
After
Before
Astro
Time/ Offset
Off
#
On
Sunset
Sunrise
After
Time/ Offset
Before
#
Astro
Load Description and Panel/Circuit (Source)
Off
Load #
On
On / Off Times
Load Time Schedule Worksheet Panel ID #: _______________
Programmer: ____________________________________
Time Schedule for: ________________
Last Updated: _____________________________
(Monday, Tuesday, H1, H2, etc.)
31
32
33
34
35
36
37
38
39
40
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 49
Sunset
Sunrise
After
Before
Astro
Time/ Offset
Off
#
On
Sunset
Sunrise
After
Time/ Offset
Before
#
Astro
Load Description and Panel/Circuit (Source)
Off
Load #
On
On / Off Times
Load Time Schedule Worksheet Panel ID #: _______________
Programmer: ____________________________________
Time Schedule for: ________________
Last Updated: _____________________________
(Monday, Tuesday, H1, H2, etc.)
41
42
43
44
45
46
47
48
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8
50
Sunset
Sunrise
After
Before
Astro
Time/ Offset
Off
#
On
Sunset
Sunrise
After
Time/ Offset
Before
#
Astro
Load Description and Panel/Circuit (Source)
Off
Load #
On
On / Off Times
