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�71M6513/71M6513H� Demo� Board� User’s� Manual�
�1.9.5� AUTOMATIC� GAINS� CALIBRATION�
�Starting� with� Demo� Code� revision� 3.04,� it� is� possible� to� perform� a� simple� automatic� calibration.� This� calibration�
�is� performed� for� resistive loads only and will not correct phase angle� .� The� steps� required� for� the� calibration� are:�
�1.�
�2.�
�3.�
�4.�
�5.�
�6.�
�Enter� operating� values� for� voltage� and� current� in� I/O� RAM.� The� voltage� is� entered� at� address� 0x2029�
�(e.g.� with� the� command� )29=+2400� for� 240V),� the� current� is� entered� at� 0x202A� (e.g.� with� the� command�
�)2A=+300� for� 30A)� and� the� duration� measured� in� accumulation� intervals� is� entered� at� 0x2028.�
�The� operating� voltage� and� current� defined� in� step� 1� must� be� applied� to� the� meter� (Demo� Board).�
�The� CLB� (Begin� Calibration)� command� must� be� entered� via� the� serial� interface.� The� operating� voltage�
�and� current� must� be� maintained� accurately� while� the� calibration� is� being� performed.�
�The� calibration� procedure� will� automatically� reset� CE� addresses� 08,� 09,� 0x0A,� 0x0B,� 0x0C,� and� 0x0D�
�to� nominal� values� (0x4000),� and� 0x0E,� 0x0F� and� 0x10� to� zero� prior� to� starting� the� calibration.�
�Automatic� calibration� also� reads� the� chip� temperature� and� enters� it� in� CE� location� 0x11� for� proper�
�temperature� compensation.�
�The� LCD� showing� the� “HELLO”� message� will� signal� completion� of� the� automatic� calibration.� Enter� M3�
�or� another� serial� interface� command� to� bring� the� display� back� to� normal.�
�CE� addresses� 08,� 09,� 0x0A,� 0x0B,� 0x0C,� and� 0x0D� will� now� show� values� other� than� 0x4000.� These�
�values� can� be� stored� in� EEPROM� by� issuing� the� CLS� command.�
�Tip:� Current� transformers� of� a� given� type� usually� have� very� similar� phase� angle� for� identical� operating�
�conditions.� If� the� phase� angle� is� accurately� determined� for� one� current� transformer,� the� corresponding�
�phase� adjustment� coefficient� PHADJ_X� can� be� entered� for� all� calibrated� units.�
�1.9.6� LOADING� THE� 6513_DEMO.HEX� FILE� INTO� THE� DEMO� BOARD�
�Hardware� Interface� for� Programming:� The� 71M6513/6513H� IC� provides� an� interface� for� loading� code� into� the�
�internal� flash� memory.� This� interface� consists� of� the� following� signals:�
�E_RXTX� (data)�
�E_TCLK� (clock)�
�E_RST� (reset)�
�These� signals,� along� with� V3P3� and� GND� are� available� on� the� emulator� header� J14.� Production� meters� may� be�
�equipped� with� much� simpler� programming� connectors,� e.g.� a� 5x1� header.�
�Programming� of� the� flash� memory� requires� a� specific� in-circuit� emulator,� the� ADM51� by� Signum� Systems�
�(http//www.signumsystems.com)� or� the� Flash� Programmer� (TFP-1)� provided� by� TERIDIAN� Semiconductor.� A�
�gang� programmer� is� available� for� high-volume� production.�
�In-Circuit� Emulator:� If� firmware� exists� in� the� 71M6513/6513H� flash� memory,� this� memory� has� to� be� erased�
�before� loading� a� new� file� into� memory.� Figure� 1-8� and� Figure� 1-9� show� the� emulator� software� active.� In� order� to�
�erase� the� flash� memory,� the� RESET� button� of� the� emulator� software� has� to� be� clicked� followed� by� the� ERASE�
�button� (Figure� 1-8).�
�Once� the� flash� memory� is� erased,� the� new� file� can� be� loaded� using� the� commands� File� followed� by� Load.� The�
�dialog� box� shown� in� Figure� 1-9� will� then� appear� making� it� possible� to� select� the� file� to� be� loaded� by� clicking� the�
�Browse� button.� Once� the� file� is� selected,� pressing� the� OK� button� will� load� the� file� into� the� flash� memory� of� the�
�71M6513/6513H� IC.�
�At� this� point,� the� emulator� probe� (cable)� can� be� removed.� Once� the� 71M6513/6513H� IC� is� reset� using� the� reset�
�button� on� the� Demo� Board,� the� new� code� starts� executing.�
�Flash� Programmer� Module� (TFP-1):� Follow� the� instructions� given� in� the� User� Manual� for� the� TFP-1.�
�Page:� 30� of� 112�
�?� 2005-2006� TERIDIAN� Semiconductor� Corporation�
�Revision� 5.6�
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