Usage:
ELECTRONIC MODULAR CONTROL PANEL (EMCP) FOR RENTAL GENERATOR 3300 Family Specifications VR3F FLAT TOP VOLTAGE REGULATOR FOR 4/6 AND 10/12 LEAD, SELF Testing And Adjusting VR3F FLAT TOP VOLTAGE REGULATOR FOR 4/6 AND 10/12 LEAD, SELF Systems Operation. ELECTRONIC MODULAR CONTROL PANEL (EMCP) FOR RENTAL GENERATOR 3300 Family Specifications VR3F FLAT TOP VOLTAGE REGULATOR FOR 4/6 AND 10/12 LEAD, SELF Testing And Adjusting VR3F FLAT TOP VOLTAGE REGULATOR FOR 4/6 AND 10/12 LEAD, SELF Systems Operation. This document will detail the features and operation of the EMCP 4.2 simulator. The EMCP 4.2 simulator was designed to provide a way to demonstrate some of the capabilities of Caterpillar’s EMCP 4.2 control. Each simulator comes with a set of prints that details the wiring and circuitry inside the simulator. The simulator manual document will.
- EMCP 4 LEHE0136-00 EMCP 4.1 GENERATOR SET CONTROLLER Caterpillaris leading the power generation market place with power solutions engineered to deliver unmatched performance, reliability, durability and cost-effectiveness. FEATURES GENERAL DESCRIPTION The Cat® EMCP 4.1 offers AC metering, protective relaying and engine and generator control.
- Cat manuals; contact us; 3412c emcp ii for peec engines electrical system schematics. 2.5 amps at 48vdc; 0.8 amps at 125vdc; 0.3 amps at 250vdc: note bp.
Options can be retrofitted to the EMCP II+. The following optional items are available for purchase at the parts department. The items must be wired per the service manual SENR5832, Electronic Modular Control Panel II+ (EMCP II+) For MUI Engines. To complete the installation, it is the responsibility of the installer (dealer service personnel) to provide the miscellaneous terminals, wires, tie wraps and hardware. If there are any questions concerning the application of any options, refer to the service manual SENR5832, Electronic Modular Control Panel II+ (EMCP II+) For MUI Engines.
NFPA 99 Alarm Module
To determine the proper jumper configuration, refer to the service manual SENR5832, Electronic Modular Control Panel II+ (EMCP II+) For MUI Engines.
One 130-3349 Control Group
One 9Y-0947 Annunciator Film
NFPA 110 Alarm Module
To determine the proper jumper configuration, refer to the service manual SENR5832, Electronic Modular Control Panel II+ (EMCP II+) For MUI Engines.
One 130-3349 Control Group
One 7C-9130 Film
One 8C-4646 Jumper Strap
Prime Power Alarm Module
To determine the proper jumper configuration, refer to the service manual SENR5832, Electronic Modular Control Panel II+ (EMCP II+) For MUI Engines.
One 130-3349 Control Group
One 9Y-9776 Film
Custom Alarm Module With Horn
One 130-3332 Control Group
One 130-3326 Film
One 130-3327 Film
Custom Alarm Module Without Horn
One 130-3324 Control Group
One 130-3326 Film
One 130-3328 Film
2301A Governor Controller (4P-2788)
One 4W-5971 Potentiometer
One 4W-5972 Knob
One 4W-8790 Fuse Block
One 7C-4550 Seal - Rotating Shaft
One 7E-7845 Film - DC Fuse
One 7T-0037 Fuse
One 131-5453 Governor Control Assembly
Governor Raise/Lower Switch
One 7N-8008 Switch
524/1724 Governor Controller (7E-1232)
SolSuite 2017 is a high-quality collection of 680 solitaire card games All of the world's best-known solitaire games are here, including Spider solitaire, Klondike, FreeCell, Pyramid, Golf, Yukon, Monte Carlo, Canfield, Gaps, Forty Thieves, Four Seasons, Napoleon, Diplomat, La Belle Lucie, Flower Garden, Rouge et. Solsuite 2017. Solsuite solitaire 2017 free download - SolSuite Solitaire 2020, Solitaire 2017 - Patience Klondike, and many more programs. Download SolSuite 2017 v17.5 for Free! To download the version 17.5, click here: CLICK HERE. CNET Download.com Most Popular Games Software. SolSuite Solitare is a superb collection of patience games for one person that provide a very wide range of game types. The statistics option enables you to rack your progress and in the concentration type games to test your changes in ability over a period of time. The option to change appearances of the front and back designs of the cards.
One 3K-3782 Fuse
One 4W-5972 Knob
One 4W-8790 Fuse Block
One 7C-4550 Seal - Rotating Shaft
One 7E-1246 Potentiometer
One 9Y-9782 Film - Identification
One 131-5455 Control Assembly
Starting Aid Switch
9D-3721 Switch, Manual SAS (2 position)
Overvoltage Relay
123-4944 Relay, 208 Volt
123-4945 Relay, 240 Volt Action replay codes converter online.
123-4946 Relay, 416 Volt
123-4947 Relay, 480 Volt
126-0558 Relay, 600 Volt
Overcurrent Relay
112-7959 Relay, 3 Phase Overcurrent Relay
Reverse Power Relay
5N-5510 Reverse Power Relay, 0-480 Volt
7C-4378 Reverse Power Relay, 600 Volt
Synchronizing Light Module
106-5171 Synchronizing Module Group, 0-480 Volt
106-5169 Synchronizing Module Group, 600 Volt
Dustproof Kit (121-4705)
Three 5L-5180 Washer - Sealing
Two 5L-5840 Washer - Sealing
Two 7C-2954 Gasket - Module
Two 7C-4550 Seal - Rot Sft
One 7C-4910 Seal - Washer
One 103-6272 Seal - Control
Auxiliary Or Engine Failure Relay
128-3326 Relay Group; 3PDT Relay, Socket, Spring
Remote Annunciators
These items are intended for remote mounting.
7E-8270 Instrument Panel Group, 2 Light NFPA 110
7C-5296 Instrument Panel Group, 8 Light NFPA 99 (Small Box)
131-1960 Instrument Panel Group, 8 Light CAM
131-1961 Instrument Panel Group, 16 Light CAM
131-1962 Instrument Panel Group, 8 Light NFPA 99 (Large Box)
131-1963 Instrument Panel Group, 16 Light NFPA 99
144-8325 Instrument Panel Group, 8 Light EMCP RAN
131-1965 Instrument Panel Group, 16 Light NFPA 110 (EMCP RAN & CAM)
Customer Interface Module (CIM)
This item is intended for remote mounting.
9Y-6496 Control Group
Customer Communication Module (CCM)
This item is intended for remote mounting.
117-6170 Control Group
EMCP 3 to EMCP 4.1/4.2 Cat ® Retrofit Instructions{4490}
- Electric Power Generation: All
Introduction
This Special Instruction will guide the user with step-by-step instructions for replacing a factory installed EMCP 3 with an EMCP 4.1 or an EMCP 4.2 and configuring an EMCP 4.1 or EMCP 4.2 on to a current production Caterpillar generator with an existing EMCP 3 installed.
Important Safety Information
Do not perform any procedure in this Special Instruction until you have read this Special Instruction and you understand this information. Use only proper tools and observe all precautions that pertain to the use of those tools. Failure to follow these procedures can result in personal injury. The following procedures should also be observed.
Work safely. Most accidents that involve product operation, maintenance, and repair are caused by failure to observe basic safety rules or precautions. An accident can often be avoided by recognizing potentially hazardous situations before an accident occurs.
A person must be alert to potential hazards. This person should also have the necessary training, skills, and tools in order to perform these functions properly.
Safety precautions and warnings are provided in this instruction and on the product. If these hazard warnings are not heeded, bodily injury or death could occur to you or to other persons. Caterpillar cannot anticipate every possible circumstance that might involve a potential hazard.
Therefore, the warnings in this publication and the warnings that are on the product are not all inclusive. Ensure that any tool, procedure, work method, or operating technique you use that is not recommended by Caterpillar is safe.
Ensure that the product will not be damaged or the product will not be made unsafe by the operation, lubrication, maintenance, or repair procedures used.
Do not operate or work on this engine or generator set unless you have read and understand the instructions and warnings in the Operation and Maintenance Manuals. Failure to follow the warnings and instructions could result in injury or death. Contact any Caterpillar dealer for replacement manuals. Proper care is your responsibility. |
Hardware
The EMCP 4.1/4.2 was designed to use the same 70-pin connector, pin assignment, and sheet metal cutout that is currently used on the EMCP 3. This design will allow the EMCP 4.1/4.2 to service replace factory installed EMCP 3 controllers. The EMCP 4.1 will replace the EMCP 3.1 and the EMCP 4.2 will replace either an EMCP 3.2 or EMCP 3.3. The current EMCP 3 wiring harness may not provide support for the additional functionality on the EMCP 4. Additional wiring may be required to utilize the added functionality. Refer to Table 3 for the 70-pin connector pin assignment.
Configuration of EMCP Controller
Increased usability and functional enhancements on the EMCP 4 family of controllers have made it necessary to remove some setpoints from the EMCP 4 that were previously configurable on the EMCP 3. When attempting to program an EMCP 3 ECM or Fleet replacement file onto an EMCP 4 using Caterpillar Electronic Technician (Cat ET), user will be ask to confirm that they want to proceed with the automatic conversion of setpoints. After the conversion is completed a programming summary of the changes is available for the user to review.
ET 2013A and older requires users to manually convert setpoints for Analog and Digital Inputs, and Digital and Relay Outputs. However, ET 2013B and newer automatically converts setpoints for Analog and Digital Inputs, and Digital and Relay Outputs when programming an EMCP 3 replacement file onto an EMCP 4 module.
Note: The automatic conversion process is only intended to be an aid when replacing an EMCP 3 with an EMCP 4 module. This process will convert most setpoints needed to match the configuration previously programmed on an EMCP 3. It is recommended that all setpoints be manually verified after the conversion is completed, and the control settings should be checked prior to placing the EMCP 4 in service.
EMCP 4 Automatic Configuration
Step 1 - Save the EMCP 3 Replacement File
Save an ECM or Fleet replacement file using Cat ET and the installed EMCP 3 controller:
- Navigate to the pull-down menu:'Service' > 'Copy Configuration'
There are two options:
- Fleet Configuration
- ECM Replacement
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Illustration 1 | g03409851 |
Selecting Configuration File Type |
Fleet Configuration Option
Select the 'Fleet Configuration' option when there is a need to save and copy general data to several ECMs (non-module-specific). The Fleet Configuration tool works similar to the ECM Replacement tool, except for module-specific data such as the engine serial number and hours.
ECM Replacement Option
Select the 'ECM Replacement' option when there is a need to save specific information such as engine hours.
Save a File
Download a copy of the 'EMCP 3' configuration replacement file (Fleet or ECM replacement as .xml file) from the installed controller, and then save the file to the computer desktop. The replacement file can be downloaded by selecting 'Load from ECM' at the bottom of the Cat ET screen. The configuration file saved will be used to configure the 'EMCP 4' that is replacing the 'EMCP 3'.
![Aspire](https://docs.vectric.com/docs/V9.0/Aspire/ENU/Help/Interface/SketchUp%20Files/SketchUpFiles_Import_Dialog.png)
If the controller can't be accessed to save a new version, a saved file from the dealer files, SIS, or a similar installation can be used.
Illustration 2 | g03409853 |
Step 2 - Load the EMCP 3 Replacement File onto the EMCP 4
- Install the EMCP 4.x replacement module and establish communications via Cat ET.
- Select from the Service Tool menu: 'Service' > 'Copy Configuration' > 'ECM Replacement' or 'Fleet Configuration' (based on replacement file type saved in 'Save the EMCP 3 Replacement File').
- When prompted, select the ECM replacement file saved to the desktop (as done in 'Save the EMCP 3 Replacement File'). The ECM replacement file can also be uploaded by selecting 'Load from File' at the bottom left of the Cat ET window.
- Once the correct ECM replacement file has been selected, select 'Program ECM' at the bottom left of the Cat ET window. A message like the one in Illustration 3 will appear. To continue with the automatic conversion, select 'Yes'.
- Cat ET will perform a data comparison test prior to programming the EMCP 4 with the selected ECM replacement file. Once Cat ET has completed the programming, a list of parameters and/or setpoints that was not programmed onto EMCP 4 by the selected file will be displayed for the user's review.
![Caterpillar emcp 2 manual Caterpillar emcp 2 manual](https://i.ebayimg.com/images/g/STMAAOSwCA5cfZ1D/s-l300.jpg)
Note: The following message appears after the data programming is completed to alert the user that in order to save a new ECM replacement file the user must first select 'Load from ECM' and then select 'Save to File'.
Show/hide table
Illustration 3 | g03409885 |
- After selecting 'OK' to acknowledge that programming is completed, the user can select 'Print' to save, print, or preview the list of parameters that could not be programmed onto the EMCP 4.
A list of all the setpoints that were programmed via the automatic conversion can be obtained in the following location:
- For Windows XP: C:Documents and SettingsAll UsersApplication DataOffboard Information ProductsService Tool LogsEMCP Conversion Log Files
- For Windows 7: C:Program DataOffboard Information ProductsService Tool LogsEMCP Conversion Log Files
Illustration 4 | g03409887 |
Reference: Automatic Conversion of Analog Inputs, Digital Inputs, Digital Outputs, and Relay Outputs
The information about conversions in this section is part of the automatic process in ET (2013B and newer) when programming an EMCP 3 replacement file onto an EMCP 4 module. This information is for reference only.
Note: It is recommended the user manually confirm all setpoints on the EMCP 4 after both the EMCP 3 replacement file has been loaded and after the manual conversion process has been completed for total generator controller accuracy and for safe operations.
Analog Inputs
The EMCP 3.2/3.3 consists of three analog inputs. The first two are dedicated for specific parameters and the third is configurable. The third analog input on EMCP 3.2 and EMCP 3.3 is labeled as the SPARE ANALOG INPUT.
- Analog Input #1: Dedicated for ENGINE OIL PRESSURE
- Analog Input #2: Dedicated for ENGINE COOLANT TEMPERATURE
- Analog Input #3: Spare input configured to for ENGINE OIL TEMPERATURE by default, however is commonly used for Fuel Level
With the completion of automatic configuration for EMCP 4, as described in 'EMCP 4 Automatic Configuration', the configuration setpoints for Engine Oil Pressure and Engine Coolant Temperature will be automatically configured as a sensor (analog input) or Datalink respectively.
If the configuration setpoints for Engine Oil Pressure or Engine Coolant Temperature is configured for Datalink on the EMCP 3, then Analog Input #1 and #2 on the EMCP 4 will be disabled respectively.
If the configuration setpoints for Engine Oil Pressure or Engine Coolant Temperature is configured as Sensor on the EMCP 3, the setpoints for Analog Input #1 and #2 on the EMCP 4 will be configured for Engine Oil Pressure and Engine Coolant Temperature respectively. The analog inputs warning and shutdown thresholds are also automatically configured based on EMCP 3 Engine Oil Pressure and Engine Coolant Temperature-specific setpoints.
Note: Warning and Shutdown thresholds are in kPa for pressures and °C for temperatures.
Digital Inputs
The following explains the automatic conversion that is done via Cat ET.
Emergency stop and Remote Initiate
Digital inputs for E-Stop and Remote Initiate on both the EMCP 3 and the EMCP 4 are dedicated digital inputs and not configurable for other purposes.
On the EMCP 3, E-Stop is dedicated Digital Input #1 and Remote Initiate is dedicated Digital Input #2. The active state (High or Low) for both E-Stop and Remote Initiate digital inputs are configurable through the 'Digital Input' submenu.
On the EMCP 4, the E-Stop input has been renamed 'Digital Input A' (while remaining pin 70) and remote Initiate has been renamed 'Digital Input B' (while remaining pin 55). E-Stop is configurable using the service tool or display. The Active State configuration for E-Stop is located under the 'Auto Start/Stop' menu. Remote Initiate on the 'EMCP 4' has been set to Active Low and is not configurable. The Remote Initiate input must be connected through a normally open (NO) contact to battery negative for proper operation. The contact will close to initiate a start.
Digital Inputs and Event Input Functions Numbering Offset
Digital inputs on the EMCP 3 are numbered 1 through 8, which include dedicated Digital Inputs 1 and 2 for E-Stop and Remote Initiate, respectively. This setting created a numbering offset with the Event Input Functions that the user needed to take into account when configuring a digital input. When configuring a digital input on the EMCP 3, the correlating Event Input Functions had to be decremented by two. This resulted in a difference of 2 between the number of the digital input and the corresponding event input function.
On the EMCP 4, the digital input numbering layout has changed removing the dedicated digital inputs from the numbering layout. When programming an EMCP 3 replacement file onto an EMCP 4 module, ET will automatically convert the EMCP 3 digital input setpoints based on the table below.
Note: Unique and rarely used values found on the EMCP 3 have been removed from the values available in the EMCP 4 for digital input configuration. For example 'Fire Extinguisher Pressure' has been removed. If values such as Fire Extinguisher Pressure were programmed on EMCP 3, the automatic conversion will leave this input as disabled. If such a value is needed, they can be programmed as custom events with custom text strings for the display.
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Digital Inputs | EMCP 3 | EMCP 4 | |
---|---|---|---|
Digital Input # | Event Input Function | Digital Input # | |
E-stop (Pin 70) | 1 | A | |
Remote Initiate (Pin 55) | 2 | B | |
1 (Pin 54) | 3 | 1 | 1 |
2 (Pin 53) | 4 | 2 | 2 |
3(Pin 45) | 5 | 3 | 3 |
4(Pin 44) | 6 | 4 | 4 |
5 (Pin 36) | 7 | 5 | 5 |
6 (Pin 28) | 8 | 6 | 6 |
Digital and Relay Outputs
The following explains the automatic conversion that is done via Cat ET.
EMCP 3 Digital Selector and Relay to EMCP 4 Digital Output and Relay Output Programming
The EMCP 3 Digital Selectors performed like a 12 position switch that pointed to different options that would enable the output to activate. Each of the Digital Selectors has a unique set of ten options plus two additional options (Disabled and Datalink) for configuring the digital selector associated with that digital output. See Appendix for more details about the EMCP 3 Digital Selectors Input Options
On the EMCP 3, digital selectors #1-6 are used to configure the options or conditions that will activate Relay Outputs #3-8. Refer to Tables 3-8 for Digital Selectors 1-6. Similar to configuring the digital inputs, there is a numbering offset with the relay outputs as Relay Outputs #1 and #2 are dedicated for Starter Motor Relay and Fuel Control.
On the EMCP 3, digital selector #7 and #8 are used to configure the options or conditions that will activate Digital Outputs #1 and #2.
On the EMCP 4, the relay output numbering layout has changed removing the dedicated relay outputs from the numbering layout. When configuring relay outputs, a digital selector is no longer used and there is no offset to consider. Programming Relay Output #1 will take place in Relay Output #1 setpoint location
The EMCP 4 has increased the amount of selectable relay output options and/or conditions, allowing for a more versatile output configuration. With the EMCP 4, both digital and relay programmable output parameters select from the same list of either Command Status/Parameters or System Events.
EMCP 3 | EMCP 4 | ||||
---|---|---|---|---|---|
Digital Output # | Relay Output # | Digital Selector # | Digital Output # | Programmable Relay Output # | Dedicated Relay Output # |
1 | 7 | 1 | |||
2 | 8 | 2 | |||
1 | A | ||||
2 | B | ||||
3 | 1 | 1 | |||
4 | 2 | 2 | |||
5 | 3 | 3 | |||
6 | 4 | 4 | |||
7 | 5 | 5 | |||
8 | 6 | 6 |
Note: On the EMCP 4, If the engine operating state input is configured for hardwired input, Relay Outputs #1 will have to be used for Starter Motor Relay. A Starter Motor misconfiguration shutdown will be generated if Relay Output #1 is not configured properly.
Automatic Start/Stop
The 'Automatic Start/Stop' submenu on the EMCP 3 supports Engine Type Configuration and Engine Controller CAN Data Link Configuration setpoints. These setpoints have been removed from the EMCP 4 'Automatic Start/Stop' submenu. The behavior implied by from these general setpoints in EMCP3 is controlled by function-specific setpoints in EMCP 4.
The EMCP 4 includes configuration support for Emergency Stop Switch Active State in the 'Automatic Start/Stop' submenu. Emergency Start/Stop Switch has been moved to 'Automatic Start/Stop' submenu, as it does not fall under the programmable digital inputs on the 'EMCP 4'.
Cat Emcp Ii+ Control Panel Manual
Appendix
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70-Pin Connector Assignment | ||||||
---|---|---|---|---|---|---|
Pin # | EMCP 3 & 4.1, 4.2 Function | 3.1 | 3.2 | 3.3 | 4.1 | 4.2 |
1 | Relay 8 NO | x | x | x | ||
2 | Relay 7 NO | x | x | x | ||
3 | Modbus - | x | x | x | ||
4 | Modbus Common | x | x | x | ||
5 | Modbus + | x | x | x | ||
6 | N.C. | |||||
7 | Gen AC Neutral | x | x | x | x | x |
8 | N.C. | |||||
9 | VC Gen In | x | x | x | x | x |
10 | N.C. | |||||
11 | VB Gen In | x | x | x | x | x |
12 | N.C. | |||||
13 | VA Gen In | x | x | x | x | x |
14 | Relay 8 NC | x | x | x | ||
15 | Relay 7 NC | x | x | x | ||
16 | Sensor Supply (5V) | x | x | |||
17 | RS-485 Annunciator Reference | x | ||||
18 | BATT + | x | x | x | x | x |
19 | N.C. | |||||
20 | N.C. | |||||
21 | N.C. | |||||
22 | N.C. | |||||
23 | N.C. | |||||
24 | Relay 8 C | x | x | x | ||
25 | Relay 7 C | x | x | x | ||
26 | Relay 6 NO | x | x | x | x | x |
27 | Relay 6 C | x | x | x | x | x |
28 | Digital In 8 | x | x | x | x | |
29 | Analog In 3 - | x | x | x | x | |
30 | Analog In 3 + | x | x | x | x | |
31 | IA Gen In | x | x | x | x | x |
32 | Relay 5 NO | x | x | x | x | x |
33 | Relay 4 NO | x | x | x | x | x |
34 | CAN1 Data Link - | x | x | x | x | x |
35 | Relay 3 NO | x | x | x | x | x |
36 | Digital In 7 | x | x | x | x | |
37 | Analog In 2 - | x | x | x | x | x |
38 | Analog In 2 + | x | x | x | x | x |
39 | I Gen Common | x | x | x | x | x |
40 | Relay 5 C | x | x | x | x | x |
41 | Relay 4 C | x | x | x | x | x |
42 | CAN1 Data Link Shield | x | x | x | x | x |
43 | Relay 3 C | x | x | x | x | x |
44 | Digital In 6 | x | x | x | x | x |
45 | Digital In 5 | x | x | x | x | x |
46 | Analog In 1 - | x | x | x | x | x |
47 | IB Gen In | x | x | x | x | x |
48 | Relay 2 NO | x | x | x | x | x |
49 | RS-485 Annunciator 'A' Inverting (-) | x | ||||
50 | CAN1 Data Link + | x | x | x | x | x |
51 | Relay 1 NO | x | x | x | x | x |
52 | +Bat | x | x | x | x | x |
53 | Digital In 4 | x | x | x | x | x |
54 | Digital In 3 | x | x | x | x | x |
55 | Digital In 2 | x | x | x | x | x |
56 | Analog In 1 + | x | x | x | x | x |
57 | IC Gen In | x | x | x | x | x |
58 | Relay 2 C | x | x | x | x | x |
59 | RS-485 Annunciator 'B' Non-Inverting (+) | x | ||||
60 | Batt - | x | x | x | x | x |
61 | Relay 1 C | x | x | x | x | x |
62 | CAN2 Data Link + | x | x | x | ||
63 | CAN2 Data Link Shield | x | x | x | ||
64 | CAN2 Data Link - | x | x | x | ||
65 | Batt - | x | x | x | x | x |
66 | MPU In | x | x | x | x | x |
67 | MPU Return | x | x | x | x | x |
68 | Digital Out 2 | x | x | |||
69 | Digital Out 1 | x | x | x | ||
70 | Digital In 1 | x | x | x | x | x |
EMCP 3 Digital Selectors
Digital Selector 1 | |
---|---|
Options | Value |
Air Shutoff | Input #1 |
Start Aid | Input #2 |
Common Warning | Input #3 |
Common Shutdown | Input #4 |
Crank Alert | Input #5 |
Auto Mode | Input #6 |
Breaker #1 Trip | Input #7 |
Event O/P Function | Input #8 |
Trip Point #1 | Input #9 |
Unused | Input #10 |
Show/hide table
Digital Selector 2 | |
---|---|
Options | Value |
Horn Control | Input #1 |
Common Alarm | Input #2 |
Common Warning | Input #3 |
Common Shutdown | Input #4 |
Engine Started (CTR) | Input #5 |
Run Mode | Input #6 |
Breaker #2 Trip | Input #7 |
In Cooldown | Input #8 |
Unused | Input #9 |
Unused | Input #10 |
Digital Selector 3 | |
---|---|
Options | Value |
Common Alarm | Input #1 |
Common Warning | Input #2 |
Common Shutdown | Input #3 |
Engine Started (CTR) | Input #4 |
Crank Alert | Input #5 |
Rated Speed | Input #6 |
Disable Aux AC Supply | Input #7 |
Auto Mode | Input #8 |
Breaker #1 Trip | Input #9 |
Unused | Input #10 |
Show/hide table
Digital Selector 4 | |
---|---|
Options | Value |
Common Warning | Input #1 |
Common Shutdown | Input #2 |
Engine Started (CTR) | Input #3 |
Crank Alert | Input #4 |
ECU Fault Reset | Input #5 |
Disable AUX AC Supply | Input #6 |
Engine Start Initiated (RR) | Input #7 |
Run Mode | Input #8 |
Breaker #2 Trip | Input #9 |
Unused | Input #10 |
Digital Selector 5 | |
---|---|
Options | Value |
Common Shutdown | Input #1 |
Engine Started (CTR) | Input #2 |
Crank Alert | Input #3 |
ECU Fault Reset | Input #4 |
Rated Speed | Input #5 |
Disable AUX AC Supply | Input #6 |
Auto Mode | Input #7 |
Breaker #1 Trip | Input #8 |
V&Hz Within Limits | Input #9 |
Unused | Input #10 |
Show/hide table
Digital Selector 6 | |
---|---|
Options | Value |
Engine Started (CTR) | Input #1 |
Crank Alert | Input #2 |
ECU Fault Reset | Input #3 |
Rated Speed | Input #4 |
Start Aid | Input #5 |
Common Alarm | Input #6 |
Run Mode | Input #7 |
Breaker #2 Trip | Input #8 |
Prog. Cycle Timer Output #2 | Input #9 |
Unused | Input #10 |
Digital Selector 7 | |
---|---|
Options | Value |
Disable Aux AC Supply | Input #1 |
Start Aid | Input #2 |
Breaker #1 Trip | Input #3 |
Breaker #2 Trip | Input #4 |
Auto Mode | Input #5 |
Event Output Function | Input #6 |
In Cooldown | Input #7 |
Trip Point 1 | Input #8 |
Unused | Input #9 |
Unused | Input #10 |
Show/hide table
Caterpillar Emcp Ii Control Manual
Digital Selector 8 | |
---|---|
Options | Value |
Breaker #1 Trip | Input #1 |
Breaker #2 Trip | Input #2 |
Common Alarm | Input #3 |
Auto Mode | Input #4 |
Run Mode | Input #5 |
V&Hz Within Limits | Input #6 |
Unused | Input #7 |
Unused | Input #8 |
Unused | Input # 9 |
Unused | Input #10 |