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e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
/*
* Author: Jon Trulson <jtrulson@ics.com>
* Copyright (c) 2016 Intel Corporation.
*
license: update to SPDX style license text throughout Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2019-07-30 19:41:32 -07:00
* This program and the accompanying materials are made available under the
* terms of the The MIT License which is available at
* https://opensource.org/licenses/MIT.
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
*
license: update to SPDX style license text throughout Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2019-07-30 19:41:32 -07:00
* SPDX-License-Identifier: MIT
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
*/
#include <iostream>
#include <signal.h>
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
#include <string>
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
cpp_headers: Renamed C++ headers from .h -> .hpp To make room for UPM C and C++ sensor code to coexist, all UPM C++ headers have been renamed from h -> hpp. This commit contains updates to documentation, includes, cmake collateral, examples, and swig interface files. * Renamed all cxx/cpp header files which contain the string 'copyright intel' from .h -> .hpp (if not already hpp). * Replaced all references to .h with .hpp in documentation, source files, cmake collateral, example code, and swig interface files. * Replaced cmake variable module_h with module_hpp. * Intentionally left upm.h since this file currently does not contain code (documentation only). Signed-off-by: Noel Eck <noel.eck@intel.com>
2016-04-25 14:27:51 -07:00
#include "e50hx.hpp"
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
#include "upm_utilities.h"
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
using namespace std;
using namespace upm;
bool shouldRun = true;
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
void
sig_handler(int signo)
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
{
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
if (signo == SIGINT)
shouldRun = false;
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
}
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
int
main(int argc, char** argv)
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
{
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
signal(SIGINT, sig_handler);
//! [Interesting]
// You will need to edit this example to conform to your site and your
// devices, specifically the Device Object Instance ID passed to the
// constructor, and the arguments to initMaster() that are
// appropriate for your BACnet network.
string defaultDev = "/dev/ttyUSB0";
// if an argument was specified, use it as the device instead
if (argc > 1)
defaultDev = string(argv[1]);
cout << "Using device " << defaultDev << endl;
cout << "Initializing..." << endl;
// Instantiate an E50HX object for an E50HX device that has 1075425
// as it's unique Device Object Instance ID. NOTE: You will
// certainly want to change this to the correct value for your
// device(s).
E50HX sensor(1075425);
// Initialize our BACnet master, if it has not already been
// initialized, with the device and baudrate, choosing 1000001 as
// our unique Device Object Instance ID, 2 as our MAC address and
// using default values for maxMaster and maxInfoFrames
sensor.initMaster(defaultDev, 38400, 1000001, 2);
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
// Uncomment to enable debugging output
// sensor.setDebug(true);
cout << endl;
cout << "Device Description: " << sensor.getDeviceDescription() << endl;
cout << "Device Location: " << sensor.getDeviceLocation() << endl;
cout << endl;
// update and print a few values every 5 seconds
while (shouldRun) {
cout << "System Voltage: " << sensor.getAnalogValue(E50HX::AV_System_Voltage) << " "
<< sensor.getAnalogValueUnits(E50HX::AV_System_Voltage) << endl;
cout << "System Type: " << sensor.getAnalogValue(E50HX::AV_System_Type) << endl;
cout << "Energy Consumption: " << sensor.getAnalogInput(E50HX::AI_Energy) << " "
<< sensor.getAnalogInputUnits(E50HX::AI_Energy) << endl;
cout << "Power Up Counter: " << sensor.getAnalogInput(E50HX::AI_Power_Up_Count) << endl;
cout << endl;
upm_delay(5);
}
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
cout << "Exiting..." << endl;
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
//! [Interesting]
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
examples: Remove heap allocation from C++ examples Cleanup of UPM C++ examples. Switched from heap allocation to stack allocation when possible. This simplifies the samples since it removes the need for explicit memory management. A script was used to identify and replace pointer use. To simplify the replace script, I re-formatted the C++ examples using the UPM .clang-format file. Unfortuantely this changes the look of the UPM C++ examples to a large degree. However, examples will now have a standard look/feel and uniform formatting. * Ran clang-format w/provided UPM .clang-format file * Removed new's/delete's whenever possible (left those in interface examples) * Added IIO sensor library implementation of callback void* arg * Converted all sleeps to upm defined delays (added header when necessary) * Scrubbed CXX example includes Signed-off-by: Noel Eck <noel.eck@intel.com>
2017-08-30 15:00:29 -07:00
return 0;
e50hx: Initial implementation This driver requires the UPM BACNETMSTP driver (PR #385) to be merged first. This module implements support for the Veris E50H2 and E50H5 BACnet Energy Meters. From the datasheet: The E50H5 BACnet MS/TP DIN Rail Meter with Data Logging combines exceptional performance and easy installation to deliver a cost-effective solution for power monitoring applications. Native serial communication via BACnet MS/TP provides complete accessibility of all measurements to your Building Automation System. The data logging capability protects data in the event of a power failure. The E50H5 can be easily installed on standard DIN rail, surface mounted or contained in an optional NEMA 4 enclosure, as needed. The front-panel LCD display makes device installation and setup easy and provides local access to the full set of detailed measurements. This module was developed using the upm::BACNETMSTP module, based on libbacnet-stack 0.8.3. Both libbacnet 0.8.3 and the upm::BACNETMSTP libraries must be present in order to build this module. This driver was developed on the E50H5. The Trend Log functionality is not currently supported. The Binary Input Objects are also not supported as these are only used for the Alarm bits which are already available from Analog Input Object 52 as an alarm bitfield incorporating all of the supported alarm indicators. It was connected using an RS232->RS485 interface. You cannot use the built in MCU TTL UART pins for accessing this device -- you must use a full Serial RS232->RS485 or USB-RS485 interface connected via USB. Signed-off-by: Jon Trulson <jtrulson@ics.com> Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
2016-04-01 17:29:48 -06:00
}
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