초록 ▼

Embodiments of a TRS Controller to ECU interface are provided. The interface includes a TRS Controller connected to an ECU that is part of an engine. The interface includes a keyswitch connection that is configured to send a keyswitch message from the TRS Controller to the ECU, a run signal connecti

Embodiments of a TRS Controller to ECU interface are provided. The interface includes a TRS Controller connected to an ECU that is part of an engine. The interface includes a keyswitch connection that is configured to send a keyswitch message from the TRS Controller to the ECU, a run signal connection that is configured to send a run message from the TRS Controller to the ECU, and a CAN communication connection that is configured to provide two-way communication between the TRS Controller and the ECU.

대표청구항 ▼

1. A transport refrigeration system (TRS) controller-to-engine control unit (ECU) interface for a TRS of a refrigerated transport unit comprising: a TRS controller programmed to regulate operating conditions within the refrigerated transport unit;an ECU of an electronically controlled engine configu

1. A transport refrigeration system (TRS) controller-to-engine control unit (ECU) interface for a TRS of a refrigerated transport unit comprising: a TRS controller programmed to regulate operating conditions within the refrigerated transport unit;an ECU of an electronically controlled engine configured to provide power to the TRS, wherein the ECU is programmed to control the electronically controlled engine;a controller area network (CAN) communication connection between the TRS controller and the ECU, wherein the CAN communication connection is configured to facilitate two way communication between the TRS controller and the ECU; anda keyswitch connection between the TRS controller and the ECU, the keyswitch connection being configured to enable the ECU for an engine sub-system operation,wherein when the keyswitch connection is in an active logic state, the keyswitch connection is configured to enable communication between the TRS controller and the electronically controlled engine via the ECU, and when the keyswitch connection transitions from an active logic state to an inactive logic state, the ECU is configured to enter a power latch stage and command a pre-shutdown component calibration of the electronically controlled engine. 2. The TRS controller-to-ECU interface of claim 1, wherein the CAN communication connection is configured to transmit a data message from the TRS controller to the ECU, wherein the data message is at least one of: an engine crank command message; an engine target speed command message; and an engine stop request message. 3. The TRS controller-to-ECU interface of claim 1, wherein the CAN communication connection is a wireless communication connection that is configured to transmit and receive a data message using a wireless communication protocol. 4. The TRS controller-to-ECU interface of claim 1, wherein when the keyswitch connection is in an active logic state, the TRS controller-to-ECU interface is configured to provide the TRS controller engine information of the electronically controlled engine during and after a shutdown of the electronically controlled engine. 5. The TRS controller-to-ECU interface of claim 1, further comprising a run signal connection between the TRS controller and the ECU, the run signal being configured to prepare the electronically controlled engine for starting and stopping, wherein when the run signal connection is in an active logic state, the ECU is configured to prepare the electronically controlled engine for starting, and when the run signal connection transitions from an active logic state to an inactive logic state, the ECU is configured to instruct the electronically controlled engine to stop. 6. The TRS controller-to-ECU interface of claim 5, wherein when the run signal connection is in an inactive logic state, the TRS controller-to-ECU interface is configured to deactivate inactive components of the TRS. 7. The TRS controller-to-ECU interface of claim 1, further comprising an ignition connection between the TRS controller and the ECU, the ignition connection being configured to send an ignition message from the TRS controller to the ECU. 8. The TRS controller-to-ECU interface of claim 1, further comprising a keyswitch/ignition connection between the TRS controller and the ECU, the keyswitch/ignition connection being configured to enable the ECU for an engine sub-system operation and being configured to enable the ECU for an engine sub-system operation, wherein when the keyswitch/ignition connection is in an active logic state, the keyswitch/ignition connection is configured to enable communication between the TRS controller and the electronically controlled engine via the ECU, and when the keyswitch/ignition connection transitions from an active logic state to an inactive logic state, the ECU is configured to enter a power latch stage and command a pre-shutdown component calibration of the electronically controlled engine. 9. The TRS controller-to-ECU interface of claim 1, further comprising a run/keyswitch/ignition connection between the TRS controller and the ECU, the run/keyswitch/ignition connection being configured to prepare the electronically controlled engine for starting and stopping, being configured to enable the ECU for an engine sub-system operation and being configured to enable the ECU for an engine sub-system operation, wherein when the run/keyswitch/ignition connection is in an active logic state, the run/keyswitch/ignition connection is configured to enable communication between the TRS controller and the electronically controlled engine via the ECU, and when the run/keyswitch/ignition connection transitions from an active logic state to an inactive logic state, the ECU is configured to enter a power latch stage and command a pre-shutdown component calibration of the electronically controlled engine, andwherein when the run/keyswitch/ignition signal connection is in an active logic state, the ECU is configured to prepare the electronically controlled engine for starting, and when the run/keyswitch/ignition signal connection transitions from an active logic state to an inactive logic state, the ECU is configured to instruct the electronically controlled engine to stop. 10. The TRS controller-to-ECU interface of claim 1, further comprising a starter connection between the TRS controller and the electronically controlled engine, the starter connection being configured to send a start message from the TRS controller to the electronically controlled engine for starting the electronically controlled engine. 11. The TRS controller-to-ECU interface of claim 1, further comprising a magnetic pickup engine speed sensor that is configured to provide real-time engine speed information of the electrically controlled engine to the TRS Controller directly from the electronically controlled engine. 12. The TRS controller-to-ECU interface of claim 1, further comprising a coolant temperature sensor that is configured to directly provide a coolant temperature of a coolant in the electronically controlled engine to the TRS controller. 13. The TRS controller-to-ECU interface of claim 1, wherein the ECU includes one or more engine information sensors configured to determine: a coolant level; a coolant temperature; an engine speed; an oil pressure; a fuel pressure; and an oil level, wherein the ECU is configured to transmit engine information from the one or more sensors to the TRS controller via the CAN communication bus. 14. The TRS controller-to-ECU interface of claim 1, wherein when the keyswitch connection is in an active logic state, the TRS controller-to-ECU interface is configured to provide the TRS controller engine information of the electronically controlled engine during and after a shutdown of the electronically controlled engine. 15. The TRS controller-to-ECU interface of claim 1, wherein the ECU is configured to regulate an amount of fuel delivered to the electronically controlled engine in order to maintain a speed of the electronically controlled engine regardless of a load on the engine, and wherein the TRS controller is configured to regulate a refrigeration condition within a space of the refrigerated transport unit. 16. A transport refrigeration system (TRS) controller-to-engine control unit (ECU) interface for a TRS of a refrigerated transport unit comprising: a TRS controller programmed to regulate operating conditions within the refrigerated transport unit;an ECU of an electronically controlled engine configured to provide power to the TRS, wherein the ECU is programmed to control the electronically controlled engine;a controller area network (CAN) communication connection between the TRS controller and the ECU, wherein the CAN communication connection is configured to facilitate two way communication between the TRS controller and the ECU; anda keyswitch/ignition connection between the TRS controller and the ECU, the keyswitch/ignition connection being configured to enable the ECU for an engine sub-system operation and being configured to enable the ECU for an engine sub-system operation,wherein when the keyswitch/ignition connection is in an active logic state, the keyswitch/ignition connection is configured to enable communication between the TRS controller and the electronically controlled engine via the ECU, and when the keyswitch/ignition connection transitions from an active logic state to an inactive logic state, the ECU is configured to enter a power latch stage and command a pre-shutdown component calibration of the electronically controlled engine. 17. A transport refrigeration system (TRS) controller-to-engine control unit (ECU) interface for a TRS of a refrigerated transport unit comprising: a TRS controller programmed to regulate operating conditions within the refrigerated transport unit;an ECU of an electronically controlled engine configured to provide power to the TRS, wherein the ECU is programmed to control the electronically controlled engine;a controller area network (CAN) communication connection between the TRS controller and the ECU, wherein the CAN communication connection is configured to facilitate two way communication between the TRS controller and the ECU;a run/keyswitch/ignition connection between the TRS controller and the ECU, the run/keyswitch/ignition connection being configured to prepare the electronically controlled engine for starting and stopping, being configured to enable the ECU for an engine sub-system operation and being configured to enable the ECU for an engine sub-system operation,wherein when the run/keyswitch/ignition connection is in an active logic state, the run/keyswitch/ignition connection is configured to enable communication between the TRS controller and the electronically controlled engine via the ECU, and when the run/keyswitch/ignition connection transitions from an active logic state to an inactive logic state, the ECU is configured to enter a power latch stage and command a pre-shutdown component calibration of the electronically controlled engine, andwherein when the run/keyswitch/ignition signal connection is in an active logic state, the ECU is configured to prepare the electronically controlled engine for starting, and when the run/keyswitch/ignition signal connection transitions from an active logic state to an inactive logic state, the ECU is configured to instruct the electronically controlled engine to stop.