Difference between revisions of "Modules"
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[http://mcs.woodward.com/user/downloadDatasheets.php ECU Datasheets] | [http://mcs.woodward.com/user/downloadDatasheets.php ECU Datasheets] | ||
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Also see the Module Cross Reference Chart [http://mcs.woodward.com/content/motohawk/Documentation/CurrentVersion/HTML/MotoHawk_topics/_auto/CrossReference.xhtml ECU Cross Reference] page. | Also see the Module Cross Reference Chart [http://mcs.woodward.com/content/motohawk/Documentation/CurrentVersion/HTML/MotoHawk_topics/_auto/CrossReference.xhtml ECU Cross Reference] page. | ||
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'''Note: You must be logged into the MCS website to view the datasheets below.''' Please register for an account if you do not already have one.<br/><br/> | '''Note: You must be logged into the MCS website to view the datasheets below.''' Please register for an account if you do not already have one.<br/><br/> | ||
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| + | ==[[24-pin_Module_Family|24-pin Module Family]]'''== | ||
[[Image:ECM024.jpg|200px]]<br/> | [[Image:ECM024.jpg|200px]]<br/> | ||
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[http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36326 GCM-0S12-024-0403 F Datasheet]<br/><br/><br/> | [http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36326 GCM-0S12-024-0403 F Datasheet]<br/><br/><br/> | ||
| − | + | ==[[48-pin_Module_Family|48-pin Module Family]]== | |
[[Image:ECM048.jpg|200px]]<br/> | [[Image:ECM048.jpg|200px]]<br/> | ||
Delivering more I/O and processing power, our 48-pin modules are available in engine / powertrain (ECM), general purpose (GCM), and hydraulic (HCM) control configurations. Depending on configuration, the 48-pin modules are based on Freescale MPC555 (40 MHz) or MPC563 (56 MHz) processors. Typical applications include engine-emissions control, transmissions, and hydraulics for small industrial 4 cylinder sequential and 8 cylinder batch-fire engines. | Delivering more I/O and processing power, our 48-pin modules are available in engine / powertrain (ECM), general purpose (GCM), and hydraulic (HCM) control configurations. Depending on configuration, the 48-pin modules are based on Freescale MPC555 (40 MHz) or MPC563 (56 MHz) processors. Typical applications include engine-emissions control, transmissions, and hydraulics for small industrial 4 cylinder sequential and 8 cylinder batch-fire engines. | ||
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[http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36332 HCM-0563-048-0803 Datasheet]<br/><br/><br/> | [http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36332 HCM-0563-048-0803 Datasheet]<br/><br/><br/> | ||
| − | + | ==[[80-pin_module|80-pin module]]== | |
[[Image:ECM080.jpg|200px]]<br/> | [[Image:ECM080.jpg|200px]]<br/> | ||
Our 80-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale MPC555 processor running at 40 Mhz, the 80-pin module includes multiple DSP knock inputs, optional EGO oxygen sensor inputs, as well as a high-current H-Bridge driver. Typical applications include knock control and peak/hold fuel injection for 12 cylinder sequential engines.<br/> | Our 80-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale MPC555 processor running at 40 Mhz, the 80-pin module includes multiple DSP knock inputs, optional EGO oxygen sensor inputs, as well as a high-current H-Bridge driver. Typical applications include knock control and peak/hold fuel injection for 12 cylinder sequential engines.<br/> | ||
| − | + | ==[[Modules:PCM128|128-pin module]]== | |
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[[Image:ECM128.jpg|200px]]<br/> | [[Image:ECM128.jpg|200px]]<br/> | ||
Designed for large scale engine and powertrain (ECM) control, our 128 pin module delivers optimal flexibility for complex control strategies. Built on the proven MPC565 processor, the onboard floating point unit and high clock frequency allow software to be developed in shorter times. Dual CAN 2.0B datalinks ensure interoperability with other vehicle systems. Typical applications include general rapid prototyping, peak/hold fuel injection, and 12 cylinder sequential engines<br/> | Designed for large scale engine and powertrain (ECM) control, our 128 pin module delivers optimal flexibility for complex control strategies. Built on the proven MPC565 processor, the onboard floating point unit and high clock frequency allow software to be developed in shorter times. Dual CAN 2.0B datalinks ensure interoperability with other vehicle systems. Typical applications include general rapid prototyping, peak/hold fuel injection, and 12 cylinder sequential engines<br/> | ||
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[http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36368 ECM-0565-128-1001 C/F Datasheet] | [http://www.woodward.com/publicationsdownload.aspx?DocumentNumber=36368 ECM-0565-128-1001 C/F Datasheet] | ||
| − | + | ==112-pin module family== | |
[[Image:ECM112.jpg|200px]]<br/> | [[Image:ECM112.jpg|200px]]<br/> | ||
[[Image:ECM-5644A-112-048-1202-xD.jpg|200px]]<br/> | [[Image:ECM-5644A-112-048-1202-xD.jpg|200px]]<br/> | ||
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| − | + | ==70-pin module== | |
Our new 70-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale HCS12XE processor running at 50 MHz, these modules incorporate a solid complement of memory storage; multiple frequency, crank position and EGO oxygen sensor inputs; as well as CAN2.0B and RS-485 communications. These modules are targeted for low cost, fixed-point, | Our new 70-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale HCS12XE processor running at 50 MHz, these modules incorporate a solid complement of memory storage; multiple frequency, crank position and EGO oxygen sensor inputs; as well as CAN2.0B and RS-485 communications. These modules are targeted for low cost, fixed-point, | ||
4 cylinder engine applications.<br/> | 4 cylinder engine applications.<br/> | ||
[[Image:ECM070.jpg|200px]]<br/> | [[Image:ECM070.jpg|200px]]<br/> | ||
Revision as of 10:58, 27 September 2012
Contents
Modules
See the Woodward MCS Product Guide for Description of all MCS ECUs as well as related cables and hardware.
Click here to view the ECM specification summary chart
Support
Please direct product inquiries/questions to MCS Support.
Datasheets
Also see the Module Cross Reference Chart ECU Cross Reference page.
Note: You must be logged into the MCS website to view the datasheets below. Please register for an account if you do not already have one.
24-pin Module Family
For simple applications, our 24-pin modules are available in an engine and powertrain control (ECM) configuration, using a Freescale HCS12 processor running at 24 Mhz, and in a general-purpose (GCM) configuration based on Freescale HCS12 (24 MHz) or MPC565 (56 MHz) processors. Typical applications include single cylinder and single point injected 4 cylinder engines, CAN gateways, and diesel after-treatment control systems.
ECM-0S12-024-0502 C/F Datasheet
ECM-0S12-024-0503 C/F Datasheet
ECM-0S12-024-0802 C/F Datasheet
GCM-0565-024-0602 F Datasheet
GCM-0S12-024-0401 F Datasheet
GCM-0S12-024-0402 F Datasheet
GCM-0S12-024-0403 F Datasheet
48-pin Module Family
Delivering more I/O and processing power, our 48-pin modules are available in engine / powertrain (ECM), general purpose (GCM), and hydraulic (HCM) control configurations. Depending on configuration, the 48-pin modules are based on Freescale MPC555 (40 MHz) or MPC563 (56 MHz) processors. Typical applications include engine-emissions control, transmissions, and hydraulics for small industrial 4 cylinder sequential and 8 cylinder batch-fire engines.
ECM-0555-048 Controller Family Datasheet
ECM-0563-048-0701 Datasheet
ECM-0563-048-0704 Datasheet
ECM-0563-048-0705 Datasheet
GCM-0563-048 Controller Family Datasheet
HCM-0563-048-0801 Datasheet
HCM-0563-048-0802 Datasheet
HCM-0563-048-0803 Datasheet
80-pin module
Our 80-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale MPC555 processor running at 40 Mhz, the 80-pin module includes multiple DSP knock inputs, optional EGO oxygen sensor inputs, as well as a high-current H-Bridge driver. Typical applications include knock control and peak/hold fuel injection for 12 cylinder sequential engines.
128-pin module
Designed for large scale engine and powertrain (ECM) control, our 128 pin module delivers optimal flexibility for complex control strategies. Built on the proven MPC565 processor, the onboard floating point unit and high clock frequency allow software to be developed in shorter times. Dual CAN 2.0B datalinks ensure interoperability with other vehicle systems. Typical applications include general rapid prototyping, peak/hold fuel injection, and 12 cylinder sequential engines
ECM-0565-128-0701C Datasheet ECM-0565-128-0701F Datasheet ECM-0565-128-0702C Datasheet ECM-0565-128-1001 C/F Datasheet
112-pin module family
For demanding engine and powertrain (ECM) control applications, our 112-pin modules are based on Freescale MPC5554 or 5644 processors running at 80 MHz or 120MHz. The 112-pin modules offer a full complement of memory storage, as well as multiple frequency, crank position, and DSP knock detection inputs. Typical applications include full OBD2 8 cylinder sequential engines
70-pin module
Our new 70-pin modules are designed for engine and powertrain (ECM) control. Based on a Freescale HCS12XE processor running at 50 MHz, these modules incorporate a solid complement of memory storage; multiple frequency, crank position and EGO oxygen sensor inputs; as well as CAN2.0B and RS-485 communications. These modules are targeted for low cost, fixed-point,
4 cylinder engine applications.
