AVAILABLE
78M6613 HPL Firmware
Quick Start Guide
May 4, 2012
Rev. 0
UG_6613_115
78M6613 HPL Firmware Quick Start Guide UG_6613_115
UG_6613_115 78M6613 HPL Firmware Quick Start Guide
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Table of Cont e nt s
1 Introduction ......................................................................................................................................... 4
1.1 What’s Included with an EV K? ...................................................................................................... 5
1.2 What’s included with an SDK? ...................................................................................................... 6
1.3 Other Development Tools ............................................................................................................. 6
1.3.1 Socketed Flash Programming Board ................................................................................ 6
1.3.2 Compiler and Integrated Development Environment (IDE) ............................................... 7
1.3.3 In-Circuit Emulator (ICE) ................................................................................................... 7
1.3.4 TFP2 Flash Programmer ................................................................................................... 8
2 Getting Started with the EVK ............................................................................................................. 9
2.1 USB Driver Installation .................................................................................................................. 9
2.2 Connecting the Evaluation Board to the PC ................................................................................. 9
2.3 Getting Ready to Measure AC Energy ......................................................................................... 9
2.4 Read En erg y Meas urement Data ................................................................................................. 9
2.5 Calibration ..................................................................................................................................... 9
3 Getting Started with the SDK ........................................................................................................... 10
3.1 Required Hardware and Software Development Tools .............................................................. 10
3.1.1 Running the HPL Application Software ........................................................................... 10
3.1.2 Modifying the Application Code ....................................................................................... 10
3.2 Opening the Project with Keil uVision Tools ............................................................................... 10
3.3 Rebuilding the Application .......................................................................................................... 11
3.3.1 Without the Boot Loader .................................................................................................. 11
3.3.2 With the Boot Loader and CRC ....................................................................................... 11
3.4 Downloading the *.abs File to the Target ................................................................................... 12
4 Getting Started with Flash Programming ....................................................................................... 13
4.1 Via the GUI ................................................................................................................................. 13
4.2 Via theTFP2 Flash Programming Tool ....................................................................................... 15
4.3 Via the ADM-51 Em ulator ........................................................................................................... 17
5 Contact Info rmation .......................................................................................................................... 19
Revision History ........................................................................................................................................ 19
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1 Introduction
The 78M6613 HPL Firmware is a turnkey energy measurement solution optimized for use in AC
high-power load units (HPLs), also known as “split-phase. At the sensor interface, the 78M6613 with
HPL Firmware supports two voltage sense inputs and tw o current sense inputs. At the host interf ac e,
ready-to-use data is available over a low baud-rate serial interface for minimal cost of data isolation.
Other key attributes of the HPL solution for the 78M6613 include:
Accumulation intervals based on number of AC-cycles with a minimum of 4 AC cycles for real-time
feedback (15 Hz refresh rate).
The firmware provides simple methods for calibration, alarm monitoring, and access to the following
measurement data over a low baud rate serial UART interface.
o Voltage Rms (Line1, Line2)
o Current Rms (Line1, Li ne2)
o Active Power (Line1, Line2, aggregate)
o Apparent Power (Line1, Line2, aggregate)
o Reactive Power (Line1, Line2, aggregate)
o Power Factor (Line1, Line2)
o Energy (Line 1, Line 2)
o Line Frequency
Low-latency alarms for SAG and AC dropout detection.
In addition, the firmware supports two distinctive hardware modes configurable at run-time: fixed
reference and floating reference.
Fully functional demo code can be evaluated in an Evaluation Kit (EVK) and used as is in most
applications. It can also serve as starting base for customization and adaptation to different needs with a n
optional Software Development Kit (SDK).
This document overviews the steps for
Getting Started with the EVK
Getting Started with the SDK
Getting Started with Flash Programming
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1.1 What’s Included with an EVK?
The HPL Evaluation Kit (EVK) includes the 78M6613 HPL Board (P/N 78M6613-SP-1) dem ons tr ating an
example modular daughter card for measurements of a single phase AC load or power supply. The small
daughter card incorporates the 78M6613 power and energy measurement IC and plugs into a host
adaptor board that inc l udes sensors, connection to AC mains, and an isolated serial port connection to a
Windows PC.
ICE Adaptor
Board
USB Cable
CD with GUI
Software and
Documentation
78M6613 HPL Board
The 78M6 613 on the board is pre-programmed with HPL Demo Code and calibrated at the factory. The
78M6613 energy measurement data and status is read back over the serial UART interface presented to
the PC as a virtual COM port. The 78M6613 HPL Evaluation Kit requires a PC with Microsoft® Windows
XP or later with a U S B port and a m inimum 1024 x 768 video display resolution. An AC source and load
complete the rest of the test setup needed to collect measurements.
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1.2 What’s included with an SDK?
The SDK contains all the required elements for a variety of usages.
For the user who would like to evaluate the application in their o wn hardw are, pre-built image files are
available. Loading these image files into a 78M6613 will allow running the app l ic ati on as provide d. A
demons tr ation PC-based graphical user interfa ce (GUI) is also provided and may be used to send
configuration commands to and read out measurement data from the HPL application.
Users who would like to develop their own applications have access to application level source code to
use as a baseline. Energy measurement functions are provided in object code format and with a
documented application programming interface (API). An SDK User Guide describes how to use
development tools to modify the project code. Post processing tools, such as CRC insertion also included
in the SDK package.
The 78M6613 HPL SDK includes the following components:
This Quick Start Guide
78M6613 HPL SDK 2.0 User Guide
78M6613 HPL Demo Application User Guide
78M6613 Firmware Boot Loader Functional Specification
EMSoC SDK 2.0 Serial Asynchronous Interface Protocol Specification
Additional application notes
1.3 Other Development Tools
This section describes other items available for purchase through Maxim directly or Maxim’s distributors.
1.3.1 Socketed Flash Programming Board
The 78M6613 Socket Board is a socketed fixture for flash programming 78M6613 devices in small
quantities. It allows for loading program memory into 78M6613 SoCs via either the In-C ir c u it Emulat or
(ICE) interface, TFP2, or the serial Boot Loader (UART) interface if the device already contains the Boot
Loader in flash. The 78M6613 Socket Board (P/N 78M6613-SOCKET32) includes:
78M6613 Socket Board
CD with USB Driver, GUI software, and documentation
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1.3.2 Compiler and Integrated Development Environment (IDE)
Maxim recommends using the PK51 Professional Developer’s Kit by Keil™ (www.keil.com), containing
the µVision 4 Integrated Development Environment (IDE), complete with 8051 assembler, editor, C
compiler, linker, and locator. The Demo Code shipped with the Demo Kits for Maxim AC Power
Monitoring ICs was written using this tool. Keil offers the best support for the memory model of the 80515
core used in the 78M6613 ICs. It is possible to use alternative compilers, but the code for these is not
supported by Maxim.
While all Demo Code is written using the standard CA51 tool by Keil, significant improvements in memory
usage can be made by using the PK51 “Professional Developer’s Kit” by Keil. The PK51 contains the
LX51 extended linker that can reduce code size using special optimization techniques.
1.3.3 In-Circuit Emulator (ICE)
The Signum Systems ADM-51 (www.signum.com) is compatible with the Keil symbolic output format and
supports the 78M6613. It is useful to perform the following tasks:
Code emulation with breakpoints, watch windows, etc., with support of source code symbols
Memory monitoring and manipulation (SFRs, XRAM, I/O RAM)
Flash erase and code loading into flash memory of the 78M6613
Maxim supplies the ADM-51 to customers at a preferred price (P/N DB6612-ADM51) along with an
isolated USB cable.
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1.3.4 TFP2 Flash Programmer
The Signum ADM-51 can serve as a programmer for prototyping and small quantities. For programming
production qua nt ities , Maxim offers the TFP2 Flash Programming Module (P/N 80515-FPBM-TFP2),
which is a stand-alone programmer that can be operated manually or in an ATE environment.
The TFP2 offers the following features:
Stand-alone or PC-controlled programming
Variable flash memory size (selectable to match target device’s memory size
LEDs and signal outputs for PASS and FAIL
Pushbutton and digital control inputs compatible with ATE
Can erase and re-program ICs overriding the SECURE bit set
For more information, see the Flash Programmer Model TFP2 User’s Manual.
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2 Getting Started w ith the EVK
This section describes the necessary steps to get the pre-built application up and running. Note that some
of the steps are only required once when the setup is installed for the first time.
2.1 USB Driver Installation
The Evaluation Kit includes an isolated USB interface for serial communications with a PC. The FTDI
USB controller IC FT232R performs the USB functions. Refer to the 78M6613 HPL Evaluation Board
User Manual for information about USB Driver installation.
2.2 Connecting the Evaluation Board to the P C
DO NOT APPLY AC POWER TO THE BOARD YET!
Connect the 78M6613 HPL Evaluation Board to a USB port of the PC using the provided USB cable. The
board is powered through this connection. If installed for the first time, the PC will prompt you to install a
USB-COM driver. Ref er to the 78M6613 HPL Evaluation Board User Manual for more information.
2.3 Getting Ready to Measure AC Energy
Refer to the includ ed Saf et y Precautions application note and 78M6613 HPL Evaluation
Board User Manual for detailed instructions if not already familiar with energy measurement,
and for trouble shooting tips.
2.4 Read Energy Measurement Data
The GUI application is now read y to be used to read energy measurement data and verify that the
hardware and software work properly. Refer to the 78M6613 HPL Demo Application User Guide for more
information.
2.5 Calibration
All evaluation kits come pre-calibrated to a precision source.
Note: Calibration requires connection of a reference power supply and a reference load that are more
accurate than the desired calibrated accuracy. For more information, refer to the 78M661x Calibration
Procedure.
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3 Getting Started w ith the SDK
3.1 Required Hardware and Softwa re De velopment Tools
3.1.1 Running the HPL Appl ication Software
The HPL Demo Application can be used without purchasing software development tools. The prebuilt
image file can be downloaded to the 78 M66 13 de vice via one of the following methods:
The UART interface using the 78M6613 Boot Loader (target 78M6613 device must already have Boot
Loader code resident in the flash memory)
The ICE interface using TFP2 Flash Programmer tool (sold separately)
The ICE interface using the ADM-51 Emulator (sold separately by Signum Systems Corporation)
3.1.2 Modifying the Application Code
The project application code can be modified and adapted using the Keil development tool suite for the
8051 processor and the ADM-51 Emulator.
Keil uVision4, version 9.0 and higher (http://www.keil.com/uvision)
ADM-51 Emulator (http://www.signum.com/Signum.htm)
3.2 Opening the Project with Keil uVision Tools
The project is loaded into the development tools by opening the 6613_HPL_APP.uvproj file in the
\Application folder.
The project files are organized in folders, such as metrology, drivers, communication, etc, as can be seen
below.
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3.3 Rebuilding the Application
The application can be built with or without inclusion of the Boot Loader utility.
3.3.1 Without the Boot Loader
Building the application without the Boot Loader entails that software updates in the end product are
possible only by connecting the TFP2 or ADM-51 tools to the ICE interface port. H o wever , 1 KB of flash
memory is freed when the Boot Loader is not included, which can be used by the application itself.
Select target HPL_NOBOOT from the drop down list ( e nc irc led in the figur e above) and press F7 to build
the project. A successful run produces two output files in the \Application\Obj folder. The *.abs file is
most suited to be used by the emulator for debugging. The *.hex file is an image file best suited for the
TFP2 programmer, and contains no debugging information. The *.hex file, as produced by the Keil
compiler, is not suitable for the TFP2 unless the CHKSUM utility is first used to process the file into the
proper format.
3.3.2 With the Boot Loader and CRC
The Boot Loa der r eq uires 1 KB of memory and insertion of CRC codes into the image file. Building an
application with the Boot Loader utility allows for subsequent firmware upgrades via the serial interface
(RS-232 or RS-485) connected to the host.
Select target HPL_BOOT from the drop-down list (encircled in the figure above) and press F7 to build the
project. A successful run produces two output files in the \Application\Obj folder. The *.abs file is most
suited to be used by the emulator for debugging. The *.hex file is an image file best suited for the TFP2
programmer, and contains no debugging information. See the Flash Programmer Model TFP2 Users
Manual on how to use the C HK SUM uti lit y.
It should be noted that the *.hex output file needs to be post-processed in order to calculate and insert
the CRC values. The Hex2CRCHex.exe application is included, in the tools folder of the SDK, to perform
the post-c ompiling CRC insertion into the hex file. The resulting hex file is renamed with ‘CRC’ added in
the name. For example: HPL_6613_v1_00_CRC.hex is generated by the Hex2CRCHex.exe tool using
input file HPL_6613_v1_00.hex. The project settings are such that this tool is invoked by default, as
shown here:
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3.4 Downloa ding the *.abs File to the Target
The ADM-51 Emulator is used to download the *.abs file to the EVM board. Once downloaded, the
developer can run, stop and debug the application. Familiarity with the ADM-51 debugging tools is
assumed for the purpose of this document.
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4 Getting Started w ith Fl a sh Pr ogramming
4.1 Via the GUI
If the Firmware includes a Boot Loader, the following steps describe how to use the GUI to upgrade the
Firmware using the Boot Loader:
1. On the SAI Commands tab, click the Invoke Boot Loader Mode button near the lower-left corner.
2. Power cycle the device, or send “Soft Reset” command. It will enter the Boot Load mode. This can be
verified by observing the DIO4 pin, which produces 15 ms pulses when the boot loader is in
operation.
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3. On the BootLoader tab, click the Load New Hex File button and select the hex file for the upgrade.
4. The GUI will show progress during the firmware upgrade. After the firmware upgrade is complete the
new firmware application is running.
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4.2 Via theTFP2 Flash Programmi ng Tool
Refer to the Flash Programmer Model TFP2 User’s Manual for more detailed instructions if necessary.
1. Connect the TFP2 Programmer to the evaluat ion bo ard via the ribbon cable and connect the serial
cable to the PC. Make sure the 78M6613 is connected to 3.3V. The memory size switch must be set
to 32 KB for the 78M6613 target device.
2. Start a terminal program. In the example, Hyper Terminal was used. Set the connection to the proper
COM port and set it to 38400, N, 1, XONXOFF. A prompt should appear.
3. Type the “H” command at the > prompt on the terminal and select Transfer> Send Text File (as
shown below). Do not select Send File. This .hex file must have previously been processed with the
CHKSUM.exe utility.
4. Wait for the hex file to get transferred to TFP2 internal EEPROM. Once complete, a PASS message
should appear as seen below.
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5. To program the device’s flash using the flash image that was just programmed in the TFP2’s
EEPROM in steps 3 and 4 above, t ype the “P” command at the > prompt or simply push the Program
button on the TFP2. If the programming is successful, a “PASS” message will be displayed. The
Firmware programming is now complete.
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4.3 Via the ADM-51 Emulator
Refer to the Signum System ADM-51 Emulator documentation if necessary.
1. Connect the ADM-51 to the PC using the isolated USB cable. Connect the target board to ADM-51
emulator using the ribbon cable and power up the 78M6613 device.
2. Start the Wemu51 program from the connected PC.
3. Stop the CE by writing 0x00 at XRAM address 0x2000 (see the XDATA memory window below).
4. Use File->Load to select the hex file for programming.
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5. Browse using the Hex File Type, or ABS file type (see Section 3.4).
6. Click OK to start the programming. The progress will be shown in the progress bar.
7. Once progress is 100%, the firmware programming is complete.
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5 Contact Inform ation
For more information about Maxim products or to check the availability of the 78M6613, contact technical
support at www.maxim-ic.com/support.
Revision History
Revision
Number Revision
Date Description Pages
Changed
0 5/4/2012 First publication.