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SEGMENT 'sbytePWMLevel' 0x40F08
SEGMENT 'bytePWMFiltered' 0x442D0
SEGMENT 'byteShift' 0x442C0
SEGMENT 'calram' 0x41117
SEGMENT 'sbyteTriangle' 0x442CE
SEGMENT 'v' 0x442DE
SEGMENT 'vin' 0x442DC
SEGMENT 'curve1_8_uc' 0x40FE9
SEGMENT 'curve2_8_uc' 0x40FF1
SEGMENT 'curve3_8_uc' 0x40FF9
SEGMENT 'a' 0x40F02
SEGMENT 'b' 0x40F04
SEGMENT 'c' 0x40F06
SEGMENT 'map3_8_8_uc' 0x40FA9
SEGMENT 'map1_8_8_uc' 0x40F29
SEGMENT 'map4_80_uc' 0x41064
SEGMENT 'map2_8_8_uc' 0x40F69
SEGMENT 'curve5_16_uc' 0x41011
SEGMENT 'curve4_8_uc' 0x41001
SEGMENT 'curve5_16_uc4' 0x41051
SEGMENT 'map1Counter' 0x40F28
SEGMENT 'map5_82_uc' 0x410B4
['Bits']
VARIABLE 0x7 'Counter_B4' 'byteCounter' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,4) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Counter_B5' 'byteCounter' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,5) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Counter_B6' 'byteCounter' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,6) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Counter_B7' 'byteCounter' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,7) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x3 'ShiftByte' 'byteShift' : 0 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'Shifter_B0' 'byteShift' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Shifter_B1' 'byteShift' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,1) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Shifter_B2' 'byteShift' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,2) "" 2 0 1 (0 20) PREC 3
VARIABLE 0x7 'Shifter_B3' 'byteShift' : 0 "Single bit demo signal (bit from a byte shifting)" UINT(1,3) "" 2 0 1 (0 20) PREC 3
['Bitslices']
VARIABLE 0x3 'BitSlice' 'wordCounter' : 0 "Testsignal: 4 Bit on a byte boundary" UINT(4,6) "" 0 0 15
VARIABLE 0x3 'BitSlice0' 'wordCounter' : 0 "Testsignal: 5 Bit" UINT(5) "" 0 0 31
VARIABLE 0x3 'BitSlice1' 'wordCounter' : 0 "Testsignal: 5 Bit " UINT(5,5) "" 0 0 31
VARIABLE 0x3 'BitSlice2' 'wordCounter' : 1 "Testsignal: 5 Bit " UINT(6,2) "" 0 0 63 (0 31)
VARIABLE 0x7 'TestStatus' 'byteCounter' : 0 "2 bit demo signal with symbolic conversion formula" UINT(2,6) "" 1 0 3 PREC 0
['Example_Filter']
VARIABLE 0x4 'a0' 'a' : 0 "Digital Filter v=(vin*a0+v*b0)/c0" UINT(16) "Volt" 3 0 1 PREC 3 __UWORD_S
VARIABLE 0x4 'b0' 'b' : 0 "Digital Filter v=(vin*a0+v*b0)/c0" UINT(16) "Volt" 3 0 1 PREC 3 __UWORD_S
VARIABLE 0x4 'c0' 'c' : 0 "Digital Filter v=(vin*a0+v*b0)/c0" UINT(16) "Volt" 3 0 1 PREC 3 __UWORD_S
VARIABLE 0x3 'v' "Digital Filter Outputvalue" UINT(16) "Volt" 3 0 1 PREC 3
VARIABLE 0x7 'vin' "Digital Filter Inputvalue" UINT(16) "Volt" 3 0 1 PREC 3
['Measure']
VARIABLE 0x3 'channel1' "FLOAT demo signal (sine wave)" FLOAT "Volt" 0 -1e+12 1e+12 (-100 100) PREC 3
VARIABLE 0x3 'channel2' "FLOAT demo signal (sine wave)" FLOAT "Volt" 0 -1e+12 1e+12 (-100 100) PREC 3
VARIABLE 0x3 'channel3' "FLOAT demo signal (sine wave)" FLOAT "Volt" 0 -100 100 PREC 3
VARIABLE 0x3 'noise' "Random numbers" FLOAT "" 0 0 255 PREC 3
['Parameters']
VARIABLE 0x7 'ampl' "Amplitude of channel 1-3" FLOAT "Volt" 0 0 200 PREC 3
VARIABLE 0x7 'limit' "Limit for channel1" FLOAT "" 0 -1e+12 1e+12 (0 100) PREC 3
VARIABLE 0x7 'offset' "Offset for channel1" FLOAT "Volt" 0 -1e+12 1e+12 (0 100) PREC 3
VARIABLE 0x7 'period' "Period of channel 1-3" FLOAT "s" 0 0 100 PREC 3
['PWM_Parameters']
VARIABLE 0x7 'bytePWMFilter' "Filter constant for PWM filter" UINT(8) "" 0 0 100
VARIABLE 0x7 'FW1' 'byte4' : 0 "Testparameter" UINT(8) "" 0 0 255
VARIABLE 0x7 'PWM_Level' 'sbytePWMLevel' : 0 "" INT(8) "Volt" 0 -50 50
['PWM_Signals']
VARIABLE 0x3 'PWM' 'bytePWM' : 0 "Pulse width signal from PWM_level and Triangle" UINT(8) "" 2 0 255 (0 100) PREC 0
VARIABLE 0x3 'PWMFiltered' 'bytePWMFiltered' : 0 "Low pass filtered PWM signal" UINT(8) "" 0 0 255 (0 100)
VARIABLE 0x3 'Triangle' 'sbyteTriangle' : 0 "Triangle test signal used for PWM output PWM" INT(8) "" 0 -50 50
['Test_Parameters']
VARIABLE 0x7 'testbit0' 'calram' : 0 "" UINT(1) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit1' 'calram' : 0 "" UINT(1,1) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit2' 'calram' : 0 "" UINT(1,2) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit3' 'calram' : 0 "" UINT(1,3) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit4' 'calram' : 0 "" UINT(1,4) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit5' 'calram' : 0 "" UINT(1,5) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit6' 'calram' : 0 "" UINT(1,6) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbit7' 'calram' : 0 "" UINT(1,7) "" 0 0 1 (0 20)
VARIABLE 0x7 'testbitslice0' 'calram' : 0 "" INT(5) "" 0 -16 15 (0 32)
VARIABLE 0x7 'testbitslice1' 'calram' : 0 "" INT(5,5) "" 0 -16 15 (0 32)
VARIABLE 0x7 'testbitslice2' 'calram' : 1 "" INT(6,2) "" 0 -32 31 (0 32)
VARIABLE 0x7 'testbyte0' 'calram' : 0 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte1' 'calram' : 1 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte2' 'calram' : 2 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte3' 'calram' : 3 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte4' 'calram' : 4 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte5' 'calram' : 5 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte6' 'calram' : 6 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testbyte7' 'calram' : 7 "" INT(8) "" 0 -128 127 (0 255)
VARIABLE 0x7 'testdword0' 'calram' : 0 "" INT(32) "" 0 -2.14748e+09 2.14748e+09 (0 1e+06)
VARIABLE 0x7 'testdword1' 'calram' : 4 "" INT(32) "" 0 -2.14748e+09 2.14748e+09 (0 1e+06)
VARIABLE 0x7 'testubitslice0' 'calram' : 0 "" UINT(5) "" 0 0 31 (0 32)
VARIABLE 0x7 'testubitslice1' 'calram' : 0 "" UINT(5,5) "" 0 0 31 (0 32)
VARIABLE 0x7 'testubitslice2' 'calram' : 1 "" UINT(6,2) "" 0 0 63 (0 32)
VARIABLE 0x7 'testubyte0' 'calram' : 0 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte1' 'calram' : 1 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte2' 'calram' : 2 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte3' 'calram' : 3 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte4' 'calram' : 4 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte5' 'calram' : 5 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte6' 'calram' : 6 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testubyte7' 'calram' : 7 "" UINT(8) "" 0 0 255
VARIABLE 0x7 'testudword0' 'calram' : 0 "" UINT(32) "" 0 0 4.29497e+09 (0 1e+06)
VARIABLE 0x7 'testudword1' 'calram' : 4 "" UINT(32) "" 0 0 4.29497e+09 (0 1e+06)
VARIABLE 0x7 'testuword0' 'calram' : 0 "" UINT(16) "" 0 0 65536
VARIABLE 0x7 'testuword1' 'calram' : 2 "" UINT(16) "" 0 0 65536
VARIABLE 0x7 'testuword2' 'calram' : 4 "" UINT(16) "" 0 0 65536
VARIABLE 0x7 'testuword3' 'calram' : 6 "" UINT(16) "" 0 0 65536
VARIABLE 0x7 'testword0' 'calram' : 0 "" INT(16) "" 0 -32768 32767 (0 65536)
VARIABLE 0x7 'testword1' 'calram' : 2 "" INT(16) "" 0 -32768 32767 (0 65536)
VARIABLE 0x7 'testword2' 'calram' : 4 "" INT(16) "" 0 -32768 32767 (0 65536)
VARIABLE 0x7 'testword3' 'calram' : 6 "" INT(16) "" 0 -32768 32767 (0 65536)
['Test_Signals']
VARIABLE 0x3 'bit12Counter' 'wordCounter' : 0 "Demo signal (12 bit, incrementing)" UINT(12) "" 0 0 4095 (0 4096)
VARIABLE 0x7 'byte1' "Demo, read and write possible" UINT(8) "" 0 0 255
VARIABLE 0x7 'byte2' "Demo, read and write possible" UINT(8) "" 0 0 255
VARIABLE 0x7 'byte3' "Demo, read and write possible" UINT(8) "" 0 0 255
VARIABLE 0x7 'byte4' "Demo, read and write possible" UINT(8) "" 0 0 255
VARIABLE 0x3 'byteCounter' "Demo signal (byte, incrementing)" UINT(8) "" 0 0 255
VARIABLE 0x3 'dwordCounter' "Demo signal (dword, incrementing)" UINT(32) "" 0 0 255
VARIABLE 0x3 'KL1Output' 'curveOutput' : 0 "Value generated from curve KL1" UINT(8) "" 0 0 255
VARIABLE 0x3 'wordCounter' "Demo signal (word, incrementing)" UINT(16) "" 0 0 65535 (0 255)
['Virtual']
VARIABLE 0x3 'DtChannel1' 0x0000 "Time jitter of channel1" FLOAT "" 0 0 100 PREC 3 VIRTUAL 11
VARIABLE 0x3 'MaxChannel1' 0x0000 "Maximum value of channel1" FLOAT "" 0 -100 100 PREC 3 VIRTUAL 12
VARIABLE 0x3 'MinChannel1' 0x0000 "Minimum value of channel1" FLOAT "" 0 -100 100 PREC 3 VIRTUAL 13
['WorkingPoint']
VARIABLE 0x4 'map1Counter' "" UINT(8) "" 0 0 255 __UBYTE_S
VARIABLE 0x3 'map1InputX' "" UINT(8) "m" 10 0 25.5 (0 7) PREC 3
VARIABLE 0x3 'map1InputY' "" UINT(8) "m" 10 0 25.5 (0 7) PREC 3
VARIABLE 0x3 'map1Output' "" UINT(8) "cm" 6 0 2550 (0 255) PREC 3
['Axis']
COM_AXIS 'Curve1' 'curve1_8_uc' : 0 "Curve used as axis" UINT(8) "" 0 0 255 8 0 '' 0 0 1 0x5 SSV__UBYTE_S
COM_AXIS 'Curve2' 'curve2_8_uc' : 0 "Curve used as axis" UINT(8) "" 0 0 255 8 0 '' 0 0 1 0x5 CurveX8ub
COM_AXIS 'Curve3' 'curve3_8_uc' : 0 "Curve used as axis" UINT(8) "" 0 0 255 6 0 '' 0 0 1 0x5 SSV__UBYTE_S
['Curves']
ARRAY 'KL1' 'curve5_16_uc' : 0 "16 BYTE curve" UINT(8) "" 0 0 255 16 1 0 __UBYTE_Z
AXIS
AXIS
ARRAY 'KL2' 'curve1_8_uc' : 0 "8 BYTE shared axis Curve2" UINT(8) "" 0 0 255 0 1 0 __UBYTE_Z
AXIS 'Curve2'
AXIS
ARRAY 'KL3' 'curve4_8_uc' : 0 "8 BYTE CurveX8V8ub" UINT(8) "" 0 0 255 8 1 0 CurveX8V8ub
AXIS 'KL3_X_AXIS' 0x41001 "" UINT(8) "" 0 0 255 8 0 '' 1 0 0 1 0x4
AXIS
ARRAY 'KL4' 'curve4_8_uc' : 0 "8 BYTE CurveV8ub" UINT(8) "" 0 0 255 8 1 0 CurveV8ub
AXIS
AXIS
ARRAY 'KL5' 'curve1_8_uc' : 0 "8 BYTE CurveV8ub shared axis Curve2" UINT(8) "" 0 0 255 0 1 0 CurveV8ub
AXIS 'Curve2'
AXIS
ARRAY 'KL6' 'curve3_8_uc' : 0 "8 BYTE CurveV8ub fixed axis" UINT(8) "" 0 0 255 8 1 0 CurveV8ub
AXIS 'KL6_X_AXIS' 0x40FF9 "" INT(16) "" 0 0 255 8 0 '' 2 0 128 8 0x0
AXIS
ARRAY 'KL7' 'curve5_16_uc4' : 0 "" UINT(16) "" 4 0 500 8 1 0 PREC 3 CurveX8V8ubAlternate
AXIS 'KL7_X_AXIS' 0x41051 "" UINT(16) "" 4 0 655.35 8 0 PREC 3 '' 1 0 0 1 0x4
AXIS
ARRAY 'KL8' 'curve5_16_uc4' : 0 "" UINT(16) "" 4 0 655.35 2 8 0 PREC 3 __UWORD_Z
AXIS 'KL8_X_AXIS' 0x41051 "" INT(16) "" 0 0 1 2 0 '' 2 0 0 1 0x0
AXIS 'KL8_Y_AXIS' 0x41051 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
['Maps']
ARRAY 'KF1' 'map3_8_8_uc' : 0 "8*8 BYTE no axis" UINT(8) "" 4 0 2.55 8 8 0 PREC 3 __UBYTE_Z
AXIS 'KF1_X_AXIS' 0x40FA9 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
AXIS 'KF1_Y_AXIS' 0x40FA9 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
ARRAY 'KF2' 'map1_8_8_uc' : 0 "8*8 BYTE shared axis Curve1/Curve1" UINT(8) "" 0 0 255 0 0 0 __UBYTE_Z
AXIS 'Curve1'
AXIS 'Curve2'
ARRAY 'KF3' 'map1_8_8_uc' : 0 "8*6 BYTE no axis" UINT(8) "" 0 0 255 8 6 0 __UBYTE_Z
AXIS 'KF3_X_AXIS' 0x40F29 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
AXIS 'KF3_Y_AXIS' 0x40F29 "" INT(16) "" 0 0 5 6 0 '' 2 0 0 1 0x0
ARRAY 'KF4' 'map1_8_8_uc' : 0 "8*6 BYTE shared axis Curve1" UINT(8) "" 0 0 255 0 6 0 __UBYTE_Z
AXIS 'Curve1'
AXIS 'KF4_Y_AXIS' 0x40F29 "" INT(16) "" 0 0 5 6 0 '' 2 0 0 1 0x0
ARRAY 'KF5' 'map4_80_uc' : 0 "8*6 BYTE memory layout MapX8Y6V86ub" UINT(8) "" 0 0 255 8 6 0 MapX8Y6V86ub
AXIS 'KF5_X_AXIS' 0x41064 "" UINT(8) "" 0 0 255 8 0 '' 1 0 0 1 0x4
AXIS 'KF5_Y_AXIS' 0x41064 "" UINT(8) "" 0 0 255 6 0 '' 1 0 0 1 0x4
ARRAY 'KF6' 'map1_8_8_uc' : 0 "8*8 BYTE no axis" UINT(8) "" 0 0 255 8 8 0 __UBYTE_Z
AXIS 'KF6_X_AXIS' 0x40F29 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
AXIS 'KF6_Y_AXIS' 0x40F29 "" INT(16) "" 0 0 7 8 0 '' 2 0 0 1 0x0
ARRAY 'KF7' 'map2_8_8_uc' : 0 "8*8 BYTE memory layout MapV86ub, shared axis Curve1/Curve1" UINT(8) "" 0 0 255 0 0 0 MapV86ub
AXIS 'Curve1'
AXIS 'Curve2'
ARRAY 'KF8' 'map3_8_8_uc' : 0 "8*6 BYTE memory layout MapV86ub, fixed axis " UINT(8) "1/min" 5 0 10 8 6 0 PREC 2 MapV86ub
AXIS 'KF8_X_AXIS' 0x40FA9 "" INT(16) "1/min" 5 0 25.5 8 0 PREC 1 '' 2 0 50 2 0x0
AXIS 'KF8_Y_AXIS' 0x40FA9 "" INT(16) "Nm" 9 0 25.5 6 0 PREC 1 '' 2 0 100 5 0x0
ARRAY 'map4_80_uc' "8*8 BYTE memory layout map4_80_uc" UINT(8) "" 0 0 255 8 8 0 MapX8Y8V88ub
AXIS 'map4_80_uc_X_AXIS' 0x41064 "" UINT(8) "" 0 0 255 8 0 '' 1 0 0 1 0x4
AXIS 'map4_80_uc_Y_AXIS' 0x41064 "" UINT(8) "" 0 0 255 8 0 '' 1 0 0 1 0x4
ARRAY 'map5_82_uc' "8*8 BYTE memory layout MapNxX8NyY8V88uc" UINT(8) "" 0 0 255 0 0 0 MapNxXNyYVuc
AXIS 'map5_82_uc_X_AXIS' 0x410B4 "" UINT(8) "" 0 0 255 0 0 '' 1 0 0 1 0x4
AXIS 'map5_82_uc_Y_AXIS' 0x410B4 "" UINT(8) "" 0 0 255 0 0 '' 1 0 0 1 0x4
['WorkingPoint']
ARRAY 'map1' 'map1_8_8_uc' : 0 "8*8 BYTE shared axis Curve1/Curve1" UINT(8) "cm" 6 0 2550 8 8 0 PREC 3 __UBYTE_Z
AXIS 'map1_X_AXIS' 0x40F29 "" INT(16) "m" 10 -12.8 12.7 8 0 PREC 3 'map1InputX' 2 0 0 1 0x0
AXIS 'map1_Y_AXIS' 0x40F29 "" INT(16) "m" 10 -12.8 12.7 8 0 PREC 3 'map1InputY' 2 0 0 1 0x0
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