SCAT K.488PR1版リファレンスマニュアル
Contents
1. SCAT 2 File Save Data WVF FFT FRA CMP WVF FFT FRA CMP WVF FFT FRA CMP 3 File Save2. R 14 N MOSFET Switch Nch MOSFET 2 N MO SFET Symbol Vth Yfs Rds Rds on Ygs 7 Vds o8 ld MO SF ET PWM 15 P MOSFET Switch Pch MOSFET 3 9 2 PX
3. 7 2 K488 Eorum 1 125 1 Z
4. 4 CTM C Buck Buck1 Paralel11
5. ex LUI CST GU 5 1 K488 DC D Qon we cL 127 7 3 K488 0 1 V mV 128 8 K488
6. 66 2 1 V 2 I 3 WVF K488 1 Pkv 2 Min 3 Ma
7. Alt 7 Widen Wdn Y A1lt 2 8 Narrow Nrw Y Alt 9 Adjust AdX CMP 90 4 a 10 Y Adjust AdY CMP Y A1t
8. T THER LUV nl T n1 ETOT ESNAF AECE 43 25 Transformer 3Phase Y Y 3Phase Y D 3Phase D D Y Y 3Phase Y Y Y A 3Phase Y D A A 3Phase D D Symbo1 Nwp Nvs Rwp Rws Y 26 Sensor V Sensor I Sensor VI Sensor IV Sensor V Sensor VI Sensor IV Sensor Symbol Gain
9. 2 2 DC DC 5 5 Analysis Sweep Sweep Transient Waveform Steady K488 Analysis Sweep
10. MO0Y 5 Petar CERES Tulle Sene DC 0 4H 2 1 K488 File Exit K488 Windows K488 K488 File Exit Yes No Cance1 2 2 File Open
11. SCAT K488 1 K488 ose 2 K488I N RI 2 LC US 14 3 K488
12. 4 K488 4 5 K488 PWM 6 K488
13. Half Wire Wire 62 57 Connection Free Wire Free Wire Wire Wire 58 Connection Jumper Jumper 59 Connection Far Jumper Far Jumper EJ 60 Connection Ground Ground 63 61
14. PWM K488 K488 K488 Er 126 1 S
15. Cmt Terminal CMT1 1 3 1 1 Wire CTM2 Rac d Vac Ls 1 CTM1 Menu Sav
16. 10ms RS 103 20ms 30ms 3 Vac Vac Vac 5 1nmV 1uV1V 4 PWM SFM PWM SFM OUT1 OUT2 PWM SFM PWM SFM PWM
17. Shift WVEF Alt XC Alt AI 0 0 Shift
18. Vi Vo um 3 14 27 Generator Pulse 1 AEJE E OO SL EEK ESET Symbol Von Voff Initial State Transition Mode 0 1 0 5 Initial State OFF Mode Ratio XIZ Transition 0 1
19. V Vt 22 Diode Shunt Regulator 2 e 3 Symbol 74 w Gain Vmin X Vmax Vref Vr Vo 23 Diode Photo Coupler ERI IN OUT Symbol Ron Roff Von Gain 42 24 Transformer Winding Winding R Core Make Core si Winding Winding R Core
20. 85 1 Output Shift 2 1 Max Y 2 Min Y 3 Div Y 1 4 Ave 5 Rms Max Min Value 3 X Axis X 1 Var X 2 Max 3 Min X 4 Div X 1 Max Min
21. TPL TPL PRT 18 2 4 File New Window Topologry
22. PWM SM AC Sweep PWM SEM AC Sweep Fin PWM SM Ave 5 9 Analysis Script Window Script New Edit K 488 C scr 107 Window Script New
23. 4 9 Wimndow Information Memo Window Information Memo MEM 4 1 0 Window Information About Window Information About 4 1 1 Window Copy Window Copy ecc UE wy LL Main 2 State 3 WF WVF A BET COE TU FY 5 FRA FRA 6 CMP CMP 4 1 2 File Print Fi1le Print xg o uso oue iu Lg xev epu ty FAA 0 0000 94
24. 1 State C 2 Scope WVF FFT FRA CMP X mm Y mm C Printer 95 5 5 1 Analysis Transient Analysis Transient Cycle 1 0 0 O0K
25. 8 1 fl p coy ess Eess UIUEON 1 Inverse matrix may be invalid 2 Reduced matrix may be invalid 3 Topology may be invalid 7 1 8 2 vae NM Esdr 1 Failed to open a notepad 2 Failed to print 3 Failed
26. Transient Waveform Cycle Transient Mode FRD Transient Waveform PWM SFM 37 OpAmp OpAmp Vi1 2 4 ots Vi2 3 4 Symbol Gain Vmin Vmax gt y Vil Vi2 Vi Vi2 Vi1 Vo Vo SU 38 OpAmp Ideal OpAmp
27. V 96 10 Source DC Current n a Symbol Value 11 Source AC Current 2 L i Symbol Vrms Freq Phini Mode Sin F Half Fu11 1 0 0 1 1 1 2 Switch Switch 3 G 1 2 S FET
28. 7 FFT K488 FFT FF TT 15 8 K488 K488 egg ew KA88PRx EXE x K488 lt CVTSMPL gt 16 2
29. Ze OP Ue b s 5 6 1 X Parameter Output K488 1 2 3 Ave 2 Analysis Transient 3 WVF
30. Irms Vrms Pin Env 5 AY FE ATAOI PPT FE FFT FFT PF Class Thd J PF HV HV 5 7 Analysis Continue Parameter
31. 1 0 0 1 Y o4 7 Source 3Phase Voltage Symbol Vrms Freq Phini Mode 3 Normal ORBE 240 120 Reverse 0 120 240 1 0 0 1
32. SRC Table List Table 1 5e 3 7 5 4 0e 3 15 0
33. REC 2 ON ON 3 4 WRX 11 5 1 S 2 T 6 Ti Ti 1 100 0 View Option State Font Color
34. 92 2 LCR Sat Inductor gt YYL_ 1 Symbol Llow Lhigh Ith tini Ith Lhigh Ith Llow D R ii 3 LCR Capacitor Capacitor RL 2 Capacitor Symbol Value Vini Capacitor RL ESR ESL E Tini Capacitor RL 0
35. Rotate MirrorH MirrorV View Default Node Mode ON 19 Wire Ground 2 5 1 Sellect AID
36. F Vo F Vi Vi 1 5 V 7 5 0 5 JIE 1 0 5 0 4 0 0 15 0 Vil JE Vo 1
37. Make EAE o Ungroup Make Make Winding Symbo1 Value Winding R ESR 1 0 I Symbo1
38. Ungroup 22 14 Polarity Polarity ON O0FF 1 5 Activate Activate 16 Deactivate Deactivate 17 Line Width Line Width 18 Font Font
39. Vctm Vctm Prg Voltage YVctmn Shift Customize Vctm Vetm 2 Vctm 26
40. PWM TO Ton oo Ts gt 112 Q D Ton Ts D Gain Vi Dref D lt Dmin D Dmin D gt Dmax D Dmax D Vi AME EIE Gain Dref Dmin Dmax D Dmin Dmax Vi Dmin Dmax DV 0 3 0 5 0 1 E 0 9 Vr Value 5 PMM Gain 0 5 Dref 0 3 Dmin 0 1 Dmax 0 9
41. Symbo1 Value 7 Undelete Undelete 8 Copy Copy 9 Symbol Symbo1 ON Zl OFF cave de VC TIR qo DS gc 10 Value Value Mode Value Unit Value ON OFF
42. L Freq Response Transient Freq Response Compensation Freq Response 2 Tanl AC Sweep Tanl 10ms Tantl 100 1 1 0 Tan1 Tanl 20ms 30ms rcu LCS Icue L3
43. Y Dif X Dif 1ndex 83 1 4 Pk m NE SO Tea 1 5 Zm FET CU AO 0 FET CN X Y 16 M AU Sm EUIS PETUA F PARA ra TOX MIEC T I r
44. E Vo 1 0 1 1 2 Vi2 Vo 48 Operator Function 2 3 G1 Symbol Gain Vmin EJE Vmax Modo Vo Vo Gain F Vi Vo lt Vmin gt Vo Vmin Vo gt Vmax Vo Vmax F SIN s in COS c os TAN t an SIN 1 s in COS 1 c o s TAN 1 t a n SQRT EXP e xp LOG l og ABS FG lx AMP FG x
45. Posieiye 4 Xj Alt 6 Display Dsp Alt 7 Widen Wdn Y A1t 8 Narrow Nrw
46. Outputs UA boh 112 68 3 5 Parameter Condition Parameter Condition 1 Nta 1 100 2 Ntw
47. Tmax Vi Tnax Tmax Active Vi o4 4 7 Operator Arithmetic 2 Vi1 4 Um Vo i 3 p G Add Sub Mul IR Oiv AIE Max Min Symbol Gain Vmin Vmax Mode Vo Vo Gain Vi1OVi2 Vo lt Vmin gt Vo Vmin Vo gt Vmax Vo Vmax Gain FAY O Max Min Vil Vi2
48. CTM_Parallel_Buck1_Buck EN 29 90 3 K488 K488 m k MKSA 1 5m 1 5m 0 0015 1 5e 3 1 5m
49. dp set EN cg uwegeWameepuo tuegre mpg oue Y X 1 3 Pk ee EN peg Y ON 4 AI RA 14 Zm FRA 67 AdX FRA X Y 15 RU RC 0m 4 rue eue cc Us CPP ONG E ERNA FANT s IT E
50. Shift Value Mode Mode1 100uH k m u E Mode2 1 0e 6 Value Unit ON OFF Avo 11 Color Color m B ED MU a 12 Group Group Doc quo orc A 13 Ungroup
51. 100 1000 3 Fta 10 20 EC EC Av 4 Compensate Transient Waveform PWM SFM sec wrnmsttotu ce LEUTE TTD FRD 69 4 K488 K488 4 1 Window Analysis Window Topology
52. K488 2
53. 8 L9 10 4 2 Window Window State Window Window State d RU qmodqu Sexe ues Hec Window Window State CC Window Window State Windows ON OFF ERR 1
54. 1 1 Eit Y Analysis Sweep Y 12 Ren Analysis Sweep 13 DeD CMP 14 1 5 Mkr
55. 2 Analysis Topology Analysis Topo1ogy 20 3 Buck1 Q Buck1 Q
56. 91 Y CMP X Y CMP 16 Set Clr Clear S066 TAES EST a Ean Ta TE Y X XX 1 7 Pk NICDMAW
57. SL SL L 1 LCR Inductor Inductor R YY_ TInductor Symbol Value ini TInductor R ESR 1 4 0 TInductor R 0 Inductor Inductor R V 1
58. 0 5 Mode Ratio Mode Time 0 1 0 5 2 V ON OFF 0 0 1 0 5 1 28 Generator Saw Tooth 2 A2 Symbol 45 Vamp1 f1d4 Mode Parameter Frequency F RD Df1d Ratio O Time V 29
59. 1 98 Symbol ZI fuus B Symbol Parameters AE MC ep NULLE SUE 2 Begin End Division Cycle Cycle 1 Sweep Cycle 0 Steady Transient Steady 0 Sweep
60. WVF 96 5 3 Analysis Step Transient Waveform Analysis Step Transient Waveform Transient Analysis Step Transient dg DC 1 Symbol 996 2 B Symbo1 Parameters dme Ouch 2
61. 19 Font Size Font Size 29 20 Customize 2 1 View Option Default View Option Default 1 Device Width 2 Device Height 3 Device Color 4 Device Line Width 5 Font 6 Font Size 7 Font Color 8 Limit Color 9 Value Mode 10 Value Unit 11 Node Mode
62. File O0pen Windows CVT SHP TPL SHP 17 2 3 1 File Save File Sayve CVT
63. 12 Highlight Color 13 Highlight Handle Radius 14 Program Font Size 15 OFF1 Color 16 OFF2 Color 22 View Home View Home 24 23 View Zoom in View Zoom in 24 View Zoom out View Zoom out 25 View Refresh View Refresh 26 View Node Create Delete View Node Create Node
64. file FRA SaveFRA filehead n FRA filehead n circuit5 O FRA SaveWVF file WVF file WVF SaveWVF filehead n WVF filehead n circuit5 WF SetACO AC SetAC id id AC SetDCO DC SetDC id id DC SetOutput sym type mode sym Type mode Qe SetParam sym par value sym par value ShowCMP show show true CMP false 140 ShowFFT show show true EN ShowFRA show show true TO ShowMain show
65. Modulated Period 1 3 PWM PWM Ratio 4 2 PWM Q1 Q2 0
66. Active BB LCS TZ SV 35 Z7uZ7 7 Viilf3x Modulator PRC ZuZzgJAduftExomdlilztiomammc 772 242b56vCzwodm SymboD Active d 36 Modulator FRD 49 1 Freq 2 Tini 3 Device PWMSwitch Pulse Saw Tooth PWM SFM DPM SYC PRC Latch Trigger 10
67. e GFF 0 0047 4 7e 3 95200 9 52e4 uU D 1 0e 12 n 1 0e 9 u 1 0e 6 m l 0e 3 k 1 0e 3 M 1 Oe 6 G 1 0e 9 T 1 0e 12 1 0e 6 u ol 3 1 1 L
68. Ctrl WVF 14 2 1 Max Y 2 Min Y 3 Div 1 4 Ave 5 Rms Max Min Value Ave Rms WVF 3 X Axis X 1 Var X 2 Max Xh KIE 3 Min X 4 Div X 1 Max Min
69. Active Ww Gr 33 Modulator DPM Coen E 1 48 Symbol Gain Cref Qmin Xmax Modulated Parameters QActive Vi 34 Modulator SYC eem Symbol Base Type Mode Transition Base Synchronized
70. Fs Fmin Fmax Vi Fmin Fmax GSG DV 100kHz 1e 5 20kHz 200kHz Vr Value ED 5 SM Gain 100k Fref 100k Fmin 20k Fmax 200k Modulated Frequency Active OK iri neue t
71. 4 DC AC DC AO DC AC DC AC DC 89 Alt C COBaSu LXI 5 Positive Negative P N Positive Negative Positive Negative Posieiye 4 Xj Alt 6 Display Dsp
72. PWM SFM 111 Parameter Condition Compensation PWM PWM MN 6 3 PWM PWM 1 PWM PWM CT Vo Vr Vi Vo Vr PWM Q Q
73. 2 Frame Line 3 Scale Line 4 Scale Font 5 Zero Line amp Vv 6 Marker Line 7 Envelope Line WVF 8 Limit Line FF TT 9 Background Selected Line Selected Line 0 Selected Line None 1 1 4 4 FFT Window Window FET K488 FFT FFT FEFT FE TTA Ceo PE
74. Analysis Topology Window Analysis Window Topology Eu Window Topology Topology is updated 1 2 3 4 5 6 7
75. LT Y XX Y Ave Rms 4 DC AC DC AO DC AC DC AC DC 19 Alt C COBaSu LXI 5 Positive Negative P N Positive Negative Positive Negative
76. Vr Von Voff 5 b Voff 5V Q 1V EE rd rq Vr Von 5V
77. WV TOO RET WV WVF 80 FF WV F 1024 WVF X FF FEFT Window Window FFT FFT ALTIRA ES is 5 Th Window Window FFT FF FFT E ol FFTv747HFvPFChHZUvZ3S5c5tuvbku vxvParzx3 A ET 1
78. From OUT1 To OUT2 Freq Response ff From To From To Phase Fold 1 8 0 1 8 0 2 OUT3 Mode Ave CRE Ze RTMNFS TUE G NUREPETS C724 4 TRM2 rL TRM1 my Ms ou EI TRM2 C R1 C1 R2 C2 TRM1 exe 4 1 1 Ii OUT1 OUT2 0OUT3 OUT2 105 Freq Response From OUT3 To OUT2 AC Sweep PWM SFM AKZ OUTI OUT3 AC Sweep PWM SFM L From OUTI To OUT3
79. PWM Dref 0 3 Modulated Q1 T0 KZ HAH Base Type Transition Mode Ratio Transition Base Q1 TO Synchronized Q2 T0 0 1 Q1 TO Q2 T0 Base Type Transition Transition Base QI TO Base Type Begin End Transition Base Mode Ratio Q2 T0 QI TO 0 1 Synchronized Q2 T0 0 1 Synchronized Q1 TO Q2 T0 Mode Time Synchronized 3 2 Q2 0 1e 6
80. 130 A 1 A CD A D DC 2240 1 A 2 B 3 C 4 6 0 0W A 5 5 9 5 D A os 131 2
81. Analysis Continue Parameter Update 5 8 Analysis Freq Response 1 2 AC Sweep Vas Open 0UT1 OUT2 AC Sweep PWM SFM 102 TRM2 rL TRM1 Ei D rC R TRM2 C RI 61 R2 c2 TRM1 ll Jd OUT1 OUT2 AC Sweep 1 Fmin Fmax Ndiv Fmin Fmax Ndiv Fmax 1 4 L2 Tanl Tanl AC Sweep
82. Mode Ratio L KIZ Modulated Q TO uo 2 Q 2 Q 0 1 2 0Q 0 3 0 IEE Ha 1 cu I D gestes ue 113 Active HB OK Dref QE CSS IA
83. Shadow Color 7 Tt Shift Ctrl View Option State Mark Color Alt OFF Switch PWM Switch Diode Thyristor View Option Default OFF1 Color Pulse Sat Inductor Comparator Latch Trigger Logic Bool OFF2 Color WVE WVF Te 12 1 dos
84. Time 1 Valuel Time 2 Value2 Total1 Time dus 3 Value1 Timel Value2 Time2 0 lt t lt Timetl Valuel Timel t Timel Time2 Value2 Time1 Time2 lt t Total Time Repeat Valuel Value1 Value2 Time1 Time2 97 Transient 5 4 Analysis Steady 1 DC DC DC DC Analysis Steady WVF 1
85. Y Alt 76 9 XB Adjust AdX WVFEF X WVF 10 Y Adjust AdY WVEF Y Alt 11 FF FFT FF FFT FETA FACT 12 CMP CMP
86. P WM Mode Tim Dref Dmin Dmax Gain 100kHz 10e 6s 0 5 PWM Dref 5e 6 3 PWM PW 114 M 2 2 PWM 0 0 RAS PEIO E 2157295 GMO TO Q1 0 3 TO T1 Q2 0 4 0 9
87. 115 2 PWM Q1 BU TO I1 T2 Q1 0 0 4 0 7 0 9 1 Dref 0 4 Modulated QI TO KRIZ Base Type Transition Mode Ratio Transition Base QI TO Synchronized Q1 T1 0 3 6 4 1 SEM 4 SFM T B I Vo Vr Vi Vo Vr Fs Fs Gain Vi Fref Fs lt Fmin Fs Fmin 116 Fs gt Fmax Fs Fmax Fs Vi AZ A JE Gain Fref Fmin Fmax
88. 1 2 3 PRC 4 3 5 4 123 4 6 L5 7 16
89. Ctr1 dod jt wq sue 09ellect MM 0 Alt Ctr1 2 3 Zoom in Zoom out Alt 2 VWire Half Wire Free Wire Core Alt
90. E 110 6 SYOC 7 OpAmp 8 Comparator 9 Operator Logic Operator Logic 10 1 9 22 INA P P Cg qus Cs 6 2 PWM SFEM DPM SYC PRC PWM SFM DPM
91. Transient 1000 1 0 0 0 ExecuteFFT 0 true 0 F FT FET 2 108 ReadCircuit c YscatYcvtYbuck vt ClearOutput Q SetOutput CR V AVE R SetAC 0 0 AC OpenWVF true WVF Rbgn 100 Rend 1 while i lt n Ro Rbgn i Rend Rbgn n SetParam R none Ro R Steady O Waveform 0 ExecuteCMP 0 true 0 CMP i i 1 109 6 6 1 K488 1
92. 1 Analysis Transient WVF 100 A PF WVF PF WVF XX 9 5 D AA 1
93. 3 SCAT 4 K488 4 13 SCAT XOU 5 K488 SCAT 6 K488
94. WVP X AdX WVF Y Alt E 20 EC 2 6 Un Sm0e 9 xw WWEWVaw Bod 79 21 View Option Scope View Option Scope WVEF FFT FR A CMP 1 Selected Line
95. 3 Vas R Mode Ave Freq Response From Vas To R L Q rL Vas Qo D rC R Ei Lc C 4 L1 Freq Response Transient PWM FRM Parameter Condition 106 Compensation
96. Parameter Condition Compensation PWM 0UT1 OUT2 Parameter Output PWM SEM Fin Ave 1 Transient Analysis Transient Parameter Update Transient 2 Freq Response KIZ Freq Response AC Sweep rom To 104
97. O0K Cancel a d does uq necseuocrcbdq weed 3l TAS 6 Cl IN 0 50 R Name Make U0MN
98. OpAmp V Follower 2 3 vive cl 1 Symbol Vo 42 OpAmp Limiter 2 3 Vi w ci Symbol Vmin Vmax Yi E yo cw 02 43 Comparator Comparator Vir lt 4 2 Vo Vi 5 1 G Symbol Von Voff Nhy Vi Vi Vi Vhys 2 Vo Von Vhys 2 Vo VoFfFf Vi Vo 4 4 Comparator Latch Vir lt 4 2 Vo Vi 3 G Symbol V
99. CMP CMP 2 Transient Cycle Transient WVF CMP ITY FYTIN 3 Waveform Cycle Waveform WVF CMP 99 4 Steady Cycle 0 Steady Transient Steady 0 WVF CMP
100. Output FE Shift 2 1 Max Y 2 Min Y 3 Div Y 1 4 Thd Max Min Value 8l 3 Frequency X 1 Max XX 2 Min X 3 Div X 1 Max Min 4 XB Widen WdX
101. WVF WVF WVF X Window Window WVF WV Window Window WVF WVF 3 QE C Window Window WVF WVF WVEP x K488 WVF WVF 1 Outputs
102. 120 2 PWM PWM 0 V 5V 6V PWM 1 V 6 6 Modulated Parameters TH X GainkVi d Xref X Xmin X Xmin X gt Xmax X Xmax X Vi Gain
103. Parameter Frequency Parameter Frequency Frequency 3 4 Parameter Output K488 1 2 1
104. View Option Default 24 22 View Home 24 23 View Zoom in 25 24 View Zoom out 25 25 View Refresh 25 26 View Node Create Delete 25 27 Window Copy 25 ONE CN o Fon c EE 26 EP M p pm 26 D so SOUS Dale DUE NRN EU 28 3 Ies 29 29 EEN IIE OE EE 31 E RN 92 CI er LL KD GU Inductor R ayr eruta eas 32 Go BT E ALR Sat Inductor escono ul anis 33 3 LCR Capacitor Capacitor RL 33 CIE IE LR OE SEDE aux E E E EEE 34 5 Source DC Voltage 34 6 Source AC Voltage EVER Ru 34 7 Source 3Phase Voltage 35 8 Source Prg Voltage 35 9 Source Tb1 Voltage 10 Source DC Current eene 1 1 Source AC Current REN 2 vu c JM METTRE KU 9 PWMAA STR PWM Switch 2 rdar s oaren 14 N MOSFET Switch Nch MOSFET 1 5
105. 1 Vi1 2 Vi12 Vi13 1 Vo1 2 Vo2 52 Operator DQD Vi1 2 Vol 4 DES G Symbol Freq Phin Mode Vol 2 4 3 Vil cos ot 0 Vi2 sin ot 6 Vo2 2 4 3 Vil cos o t 2 x 3 0 Vi2 sin o t 2 x 3 0 Vo3 2 4 3 Vil cos w t 2 x 3 0 Wi2Z sin o t 2x 3 6 Mode Normal 09 Vol 2 4 3 Vil cos ot 0 Vi2 sin ot 0 Vo2 2 4 3 Vilkcos o t 2 x 3 0 Vi2 sin c t 2x 3 0 Vo3 2 4 3 Vibkcos o t 2 x 3 0 ViZ sin o t 2x 3 0 Mode Reverse o 2 f f 0 Vil Vi2 Vol Vo2 Vo3
106. 3 V1 V27 V3 8 Source Prg Voltage 2 1 Symbo1 V 20 9 Source Tbl Voltage 2 1 Symbo1 Tabl1e File A 1 0e 3 5 0 2 0e 3 10 0 3 0e 3 15 0
107. K 488 Fa Show 11et 2 Delete K 488 K 488 SCAT SDB 2 ved v lee BA Os Qe BEI 1 Shift 65 5 SO600 SUNsl C 0K Show 1 3 S
108. Zoom in Zoom out 4 Rotate 20 Rotate gem Tr ENT NLG I Rotator 4 5 MirrorH MirrorV MirrorH MirrorV MirrorH MirrorV 6 Delete Delete Undelete
109. 2 T 3 K488 4 1 K488
110. WVF 4 7 ZL Analysis Topology ZUALA TIAR Ts 1 Read CVT 2 Save 3 Node Create 4 Node Delete 5 Copy IAF JS Iplbs ac M SEN pesuE LSY 93 4 8 Window Information Net List Window Information Net List
111. Window Script Edit K 488 Analysis Script T 0 K 488 Windows FERO N TUBIS 2 1 FFT ReadCircuit c scat cvt buck cvt ClearOutputO SetOutput CR V AVE R OpenWVF false WVF SetParam R none 100 R 1 00 Steady O Transient 500 5 0 0 SetParamCR none 1 R 1 0 SetAC 0 0 AC ShowWVF true WVF Continue
112. 8 124 T 7 1 K488
113. Generator Function 2 Square ERRI Linear Exponential Symbol Vamp Freq Tini Kaux Mode Tini 0 1 0 lt T 1 Freq Vout IEW Vout 0 O lt t T lt Kaux Vamp Kaux lt t T lt D Vout Vamp t T Vout Vamp exp Kaux t T Tini 0 Tini gt t Tini 1 0 0 1 V 46 0 Kaux T T a EE T b Vout T c
114. Set 0utputs Delete Cannot delete an operation operand EFT Outputs C o aneel Outputs EEV 1
115. FRA 1 Output Gain Phase Shift 2 1 Max Y 2 Min Y 3 Div Y 1 Max Min Value dB 3 Frequency X 1 Max XX
116. ITOJ 136 C 1 1f else while 2 RE S x P Hu true false 3 sin x COS x tan x asin x acos x atan x atan2 y sqrt x log x 5 log10 x exp x pow x abs x min x RU x y x x y 137 max x y mod x y x y 4 ClearO ClearContinue ClearOutput CloseCMPO CMP CloseFFT FF CloseFRAQ FRA CloseMain CloseState CloseWVFO WVF
117. 2 Connection Ground2 Ground2 2 2 Ground2 Ground 6 2 Connection Open 0pen Symbo1 63 Connection Terminator 6 4 Cmt Terminal CTM1 64 65 Others Text 3 2 Parameter Device Parameter Device
118. 4 Symbol Vth Von Voff NOT Vil Vi2 Vi3 Vi4 Vth 1 0 Vo Vo Von 1 Voff 0 NOT 1 Vi1 2 Vi27 3 Vi3 A Vi4 Vo 56 Connection Wire Half Wire Wire Wire Wire
119. TOPOLOGY K488 ANALYSIS File New Undelete Shift
120. 118 Q2 0 Q1 TO Q2 TO Td 3 Q1 TO Base Type Transition Mode Time Transition Base QI TO Synchronized Q2 T0 Td ELET Lo0d4 itgEGES 5c x ARKAA kR RAA Y Q1 TO Q1 TO Q2 TO 119 6 5 1 d rq LT
121. 4 Vi Vil Vi2 0 Vo G Symbo1 Vo 39 OpAmp Integrator B 3 Vi Vo ci Symbo1 Gain F1im Vo Vi 27 lim Vi Vo Gain ol 4 0 OpAmp Differentiator 2 3 Vi PIT ct Symbol Y Gain Flim e Gain Vi S CD w 27F iim Vi Vo 41
122. 5 Xh Narrow NrX 6 Y Widen WdY Y 7 Y Narrow NrY Y 8 Amp Phs Amp Phs K488 F FT cos pus gt Vncos nax n n 0 Vn 9n 9 Xh Adjust AdX F FT 82 10 Y Adjust AdY FFT Y 11
123. 2 Min XX 85 Max Min 4 Y Widen Wdn Y 5 Y Narrow Nrw Y 6 Xh Adjust AdX FRA Qd 7 Y Adjust AdY FRA Y 8 GaM 0 0 Not defined Eg 9 PhM 0 dB 0 dB Not d
124. DD 3 Symbo1 Ron Roff Vth Vhys pu Vth Vhys 2 Vth Vhys 2 R Vs 13 PWM v Switch PWM Switch 2 1 PWM 9 2 Symbo1 Ron Roff Initial State Transition Mode PWM
125. NAM 0 9 Symbo1 Ron Roff Von 4 4 In Vn n 1 2 3 4 Vi JE Vo C 20 Diode Zener 2 A Symbo1 Ron Roff Von Vzn Rzn eg EV 21 Diode Thyristor AEA 3 Symbol Ron Roff 4 EJ Von Vtrg
126. Symbol Von Voff Ton Voff Vi Vit Vi Von Ton Vi Vi Vo 46 Comparator Trigger 2 Vi T Vi 1 Symbol Tmax Vi Vi Vi Tmax Vi Vi
127. CMP CMP CMP WVF CMP 13 PF 14 7 7 Parameter Output WVF Outputs Y A FET Del 15 1 6
128. 30 Generator AC Sweep 2 s 1 Symbol Fmin Fmax Ndiv Tan1 Vac PWM SFM ff PWM SFM V AT 31 w AZ ss Modulator PWIM e 2 mE PWMmiltjziroZ2Wda C43 SIRSA LLT VYR Symbol Gain Dref Dmin Dmax Modulated Mode Active ME Ge 32 Modulator SFM mE 4 Ad YPY YARA ZT Pia C49 Symbol Gain ref Fmin Fmax Modulated
129. Von Qmax gt y Qmax Qmax Qmax Qnax 40 V 1 19 Diode Diode Bridge 2 4
130. Xref Xmin Xmax X Xmin Xmax Vi Xmin Xmax iA 6 7 C 2 1 Operator Program PFgVII PKeV12 C Ce T1750 Pe QNO eco ET Vmin Vmax PrgVo PrgVil PrgVi2 2
131. OMWP 1 8 Zm Se NGISUYC 6 EIN CMP AdX CMP X Y 92 19 Sm NIC UR ecUgcxBEgSoCIS OS CMP A PANTA Uy 20 Veiw Option Scope View Option Scope WVF FFT FR A CMP
132. 1 0 0 1 2 1 NVI 2 Vi2 1 Vo1 2 Vo2 3 Vo3 53 Operator DOP Vi1 2 4 Vo1 Vi2 3 5 Vo2 c SymboD Freq Phin Vol ViLb cos 20 t 0 Vi2 sin 2o t 0 Vo2 Vil sin 2o t 0 Vi2 cos 20 t 0 o 2mx f 9 Vil Vi2 Vol Vo2 60 1 0 0 1 EJE 1 Vil AX EJE 9 Vi9 EJE 1 Vol EHE 9 Vo2 54 Logic Logic
133. Cb 4 7 AN 1 9 A D 7 1 1 n A 2 4 5 NIA lian S09 SS S NIA 4 9 A 1 5 n kr i NIA NIA H 9 f H I2 mA 0 35 Pin h 3 85 n Pin h hi 290 6 ERAN DERE V Pin JN W L3 p wee 7 133 B 1 rb else while 2 RE S x P Hu true false 3 sin x COS x asin x acos x atan x atan2 y sqrt x log x 5 1og10 x exp x pow x y abs x min x y tan x 3 x y x x y 134 max x y mod x y x y 4 output sym type mode sym type m
134. 6 G Active 2 0 Q Dref Active Q 2 PWM PWM PWM PWM
135. XHIB I v 23 278 L 16 Veiw Option Scope View Option Scope WVEF FFT FR A CMP WVF 4 6 CMP Window Window CMP K488 CMP CMP WVF CMP Analysis Sweep CMP Window Window CMP CMP Window Window CMP CMP CMP COMP
136. show true ER S ShowState show show true ShowWVF show show true 9 FFT false FERA false false false WVF false Steady Steady Transient cycle Transient cycle Update Waveform cycle Waveform cycle 5 ds WW SX De NOT amp amp AND OR 6 141 0 7 c a b 8 qox if condition gras DEDE j else X 3 X4 j condition 1 X2 f amp O Lb amp EX3 4 else 9 while while condition nq Dar j cond
137. 17 Set GA Dx mee ES TU uetus Cearr 0 Set 18 Y Dif Ave Ave part Rms Dif Index Alt 17 1 8 Pk RD WV 19 Zm
138. 2 qeewbepessEgieesgespeq EB Ee qp OE 1000 NN View Option State 1 Font Size 2 Font Color 3 Shadow Color 4 Mark Color 5 Error Trap 4 3 WVF Window Window WVE K488
139. 63 Connection Terminator 64 CO 64 5799 SUP US Oer Te queas ces tua d ae x da erro E S 65 Je 2 Parameterf Device ALAN 00023 65 3 3 Parameter Frequency 66 3 4 Parameter Output seen 66 Vm v 66 CAR EE 67 QM LL Pp E E E E ii TE E 67 3 5 Parameter Condition 69 GNE C PETRR MERERETUR 69 CAD FCR 69 CO 69 AC DN II ee 69 70 4 1 Window Analysis Window Topology 70 Zo ii 4 Q WV EW lt UN MnO NP 73 74 75 3 Axis 75 75 CO PO NS APA us due Ei ses E dag moe 76 CS S e EN NE EE EEE 16 C dr denda 2 NOS ues A toda a PUR AIR eS 76 B Narrow A NN 76 9 Xh Adjust AdX mE ES ocu dM op EN 1 1 FFT FFT aede EE RESERVE uA 12 ONES ur SISSE S MIU inusedsceaex e epit et L3 aes RD E OOOOOOTTK KQ NM QUEUE DL KE MMC E Pr WE E ovv TCR 15 sere dou LU caras ad E c pM 2 om TE DEI pr mI OO uero cR TETTE 2 0 RAMMS 2 4 4 1 View Option Scope Lp OIS
140. ARAA ila 0257 7 420722 C db Ut 54 257g 02 4 JB Pref Active 2 Fref Active 117 PWM Ratio Tim 2
141. Analysis Freq Response sess 2 4 Gg wee npe su E i RS EA HRS 4 4 9 Analysis Script Window Script New PEEL CE i Du BEN EHE qp 27 PANNE OAeT 52 7 DWMCBWESCI sut Cerda ea edo Ca penes ee NE 2 0 PE Sos sb Ire cu ccn e UTER CX or DL E pA Jed exceeded edd ie S abad gm v Spas OI Da EO iue Topo ac p oe 10 106 9 Operator Logic eee Re 111 TO E e a TA 111 5 111 5 112 1 PWM OE 112 2 PWM i iiilensssereserfiuedceeeruedew ueab vada 114 3 PWM avara tuig 114 116 RA CN M TEE 116 Uaec qu AU Mm 118 SE c vun M Er 118 4 erre ee EE tee Rea 118 G GLLI AC UD DL m 120 I E E MCCC 120 RWMES NT 121 Du D p re NN RI NRN 121 Gs T EO LMM 122 1 0perator Program 122 2 Source Prg Voltage sec 025 122 9 g vsmtua Modulator PRO ii rs 123 OE UL 123 2 125 CERE o o o rr 125 125 ANI Cd UA es ETT 125 AN 126 CRo MN WE OTET 127 A lees IRR 127 11 5
142. Switching Converter Analysis Tool SCAT K 456 For Windows Copyright C by M Nakahara 11 Mar 2007 Energy Electronics Laboratory Sojo University 1 SCAT K488 OM US s esae ecce Sexe este d we Rete Sexe ete Y wis Bros vas 13 ME c Ce OM 2 oe 18 12 File Save cesse teer Yee rs 18 2 File Save Data WVF FFT FRA OM c em 18 3 nu ZAO Pile S ve erede i eta E atai 18 2 4 File Ney ous qa oce rm d diede pee des 19 2 DRI OT E TIS aac ica cet obs boe E ep d 20 1 Gelleet ALD cons 20 2 20 BRE OR DE CM OM OC 20 4 REZET Rotate oink es pret a 20 5 MirrorH MirrorV 21 QoS EE Pm 21 7 Undelete 21 ONU uS cm mU 9 VID ueaxseusacenela teens 2l 10 Value Value Mode Value d tco PCT 22 CEPE Oaa SA CN 22 C12 L7 OU i aite 22 22 14 Polarity 23 15 Activate n 20 16 Deactivate 23 17 Line Width 23 1 9 Sc ora onec o IO NNN 23 pog ID M TUUS XROhb TE isses 23 24 21
143. 127 7 128 129 129 IPRC NEU Tuus Rp rcu E 129 130 A 131 131 de 132 ip qr La rc p ER 134 197 12 1 SCAT K488 SCAT K488 K488 Windows LL 20 CXSTRPBEREO S eu Des K488 OK O S Windows 2 K488 SPICE
144. Mkr cU d CEC sue pieces senem LOb E HZ 2 YA MET WHAREI v 739 BUE RD Y ih Va1 Ave X Ave part IE Rm Wal Index WVF Y WVEFE TeC os 0 Alt OFF CAD
145. Source Prg Voltage t PrgV Va 100 sqrt 2 f 60 th PI 3 PrgV Va sin PI2 f t th 122 3 Modulator PRC t t 3ms 10Q 200 t 5ms 1 0 0Q If p X om RO a 10 else if t lt 5m RO 20 else RO 10 setparam R none R0 6 8
146. Vi2 Vo 50 Operator Table 2 3 Symbol Table File 1 0 5 0 2 0 10 0 3 0 15 0 bT TBL Table List Table
147. WVF Transient WVF Congratulations OK CS 5 2 Analysis Waveform Analysis Waveform Cycle 1 0 0 1 1 OK
148. 0 Capacitor Capacitor RL V 1 99 0 4 LCR Resistor 2 1 Symbo1 Value 5 Source DC Voltage 2 Symbol Value 6 Source AC Voltage 2 AS 1 Symbol Vrms Freq Phini Mode Sin Half Pu11
149. 0 1 NI Vo C 51 Operator DQC 2 n 5 Vo 1 3 VI2 Vo2 4 Vi3 6 c I AAMk IE SIRSA ELT zv rwGSymbobD Freq Phini Mode o8 Vo1 2 4 3 Vib cos o t 0 Vi2 cos o t 2 x 3 0 Vi3tcos 0 t 2 3 0 Vo2 V 2 4 3 Vib sin o t 0 ViZ sin o t 2 x 3 0 Vi3 sin cot 2 s 3 0 Mode Normal Vo1 2 4 3 Vib cos o t 0 Vi2 cos o t 2 x 3 0 Vi3tcos 0 t 2 3 0 Vo2 2 4 3 Vil sin w t 0 ViZ sin o t 2 x 3 0 Vi3 sin o t 2x 3 0 Mode Reverse w 27r f f 0 Vil Vi2 Vi3 Vol Vo2 1 0 0 1
150. 12 Mkr 2 NNC Y Va1 HR Va1 Index FFT X Y FE 2 dos 13 Set BXPUL eq obe 010000 dp Deb
151. Continue DeleteOutput Gd id ExecuteCMP id show CMP id CMP IKI 20 show true CMP false ExecuteFFT id show FFT id FF show true FFT false ExecuteFRA sym idl id2 show FRA sym ACSweep idl id2 2 show true FRA false sym OpenState show 138 show true FRA l falsez0b snb OpenWVF show WVF show true FRA Zl false T DORI LINN Output id id OutputID sym type mode
152. Pulse 2 PWM PWM Switch PWM PWM 3 PWM PWM PWM 4 SFM 5 DPM
153. View Node Delete View Option Default Node Mode ON 27 Window Copy Window Copy Ma cU ener ev 2 State 3 WF WVF 4 PPLF PTa b FRA FRA 6 CMP CMP 20 2 6 1 K 488 SO MM 1 2 1 Topology Vctm Prg Voltage Vctm
154. WAVMOSFETG 7 P G GIXNT Y wAMOSFETEIRU Vth 16 NPN Switch NPN Transistor 3 2 NPN Symbo1 H Hie Hfe Hoe Vbe Vce sat Rce sat Vbe vA BEJE Vee As8S amp WP Ib Tc PWM 99 17 PNP Switch PNP Transistor 3 2 PNP NPN 1 8 Diode Diode 2 HA 1 Symbol Ron Roff
155. 17 Veiw Option Scope View Option Scope WVF FFT FR A CMP WVF 4 5 FRA Window Window FRA K488 FRA FRA Analysis Freq Response F RA Window Window FRA FRA 84 laste Window Window FRA FRA coUe RA OCG 3 FRA 360 0
156. Display RZ 7 Dp ues d estando ge E aC EE NS 7 Widen Wdn us escecoxce tri RR oO ERE Ya ENERUR es BJ ONABEON ES S TONER vette ob TH E RARO CA CS CN 1 gi 1 1 1 1 i 1 1 1 0 YaiAdjust RZ Z ORG i i mirar e 70 alu ernen eaea u eR eu 2 MC 0 Dj ee esr Ur NOB e duces D reta DE cp 2 20 cmm NN MCCC NN t Au c P EMEN 20 raS 7 7a Veir Option SCODO hi Nr No vm i TET E E E Or TAARE ORT OSdUe eee rte RS IOpeH EPI ME IA SL OT Mode Create cease ooa ee e ap patas 4 Node Delete cuoi t dca o vers 8 Window Information Net List 9 Window Information Memo leen BJ 10 Window Information About 11 Window Copy m 73 o Ide d BE SNSNON citm be LE AN lt A A O1 Ci C OI D 1 Analysis Transient 2 Analysis Waveform eee RII 3 nalysis Step Transient Waveform 5 Analysis Sweep Sweep Transient D D 6 e eese RR RR 7 Analysis Continue Parameter Update Analysis Quit LL o 8
157. Mode 2 AND OR XOR RS RS Symbol Vth Von Voff Mode NOT Vil Vi2 Vth 1 0 Vo Vo Von 1 Voff 0 RS Vil Vi2 1 NOT AND NOT NAND 1 Vi1 2 Vi2 MO TT 61 55 Logic Bool 2 Vi1 b1 3 Vi2 b2 6 5 Vi4 b4
158. P MOSFET Switch Pch MOSFET ONPN NRN CHUTENPN Transistor ee CI PNP Wwiteh PNP Transistor asesreevas LELT AAAS UD Ch edid uten d 19 Diode Diode BPIdBe 225452559 etus 2 00 ODiodeiZeteb a compa tsm phe RE 2 1 bu Y 23A Diode Thyristor acu dee md i redo tir 22 Diode Shunt Regulator 23 iq Diode Photo Coupler axauitexetesesexcs 24 t Transformer Winding Winding R Core 25 Transformer 3Phase Y Y 3Phase Y D cc CC 26 Sensor V Sensor I Sensor VI Sensor IEEE NETTEN TEES TT TT LT TTE 2 7 Generator Pulse deme seo eid eps 28 Generator Saw Tooth 29 Generator Function eee 30 Generator AC Sweep Ly WM Modulator PWM NNNNAY tuer 32 Modulator SFM esee 33 Modulator DPM 3 3 3 3 3 3 4 4 4 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5 5 6 6 4 5 6 a 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 0 8 9 0 1 Modulator SYO 49 VB ass Modu
159. Update Analysis Quit Transient Waveform Analysis Continue 101 Cycle WVF Transient Waveform Parameter Update Analysis Quit Yes No
160. Vi Vo 1 0 1 PLETE Jo NOURRLE VI HJ yo C3 o6 49 Operator Program Vil Vi2 Symbol Vmin Vmax Vil Vi2 Vo 1 0 1 1 Vi1 2
161. e CVT CVT Menu Read Windows Analysis 4 Zi 2 0perator Function CTM2 Q L CTM3 CTM1 Buck1 Vin
162. efined 86 10 1 1 Mkr 0 0 Y FRA XX Y FRA PI Sd 12 Set C Clr Cleary
163. ition IO 142 Switching Converter Analysis Tool SCAT K 488 For Windows M 2221 Revl 00 2009 10 1H 224 0037 2 12 2 URL http www keisoku co jp TEL 045 948 0211 FAX 045 948 0221 E mail PWsales hq keisoku co jp TEL 045 948 0214 FAX 045 948 0224 E mail PW support hq keisoku co jp 143
164. lator PRO ueste amies 49 Modulator FRD 49 2 5817028 OA DAT ANAN 50 OpAmp Ideal OpAmp s 51 jog OpAmp Integrator NAS 51 qoo as OpAmp Differentiator NOS IP SS sedeo 52 OpAmp V Follower cerae patris 52 RC OM cedes sartor ee ee ee 52 Comparator Comparator oieee es e eE DO 53 Comparator Vibrator 54 Comparator Trigger aua are uat a oe reote 54 Operator Arithmetic lesse 55 Operator Punetlom xev ERIS 55 Operator Program cc eius 57 0perator Table 57 zB Bm QOperater DQO oucbbssebRIEMLPERG We 58 OperatorsDQl ea 59 Operator DQP 60 NIOH ROSS eS Se s 61 heure Logio Bool 62 B Connection Wire Half Wire 62 Connection Free Wire 63 Connection Jumper 63 Connection Far Jumper 63 swf Connection Ground ik 63 2 Connection Ground2 64 62 Connection Open 64
165. ode sym ar output sym type mode time sym Type mode time param sym par sym par quit setparam sym par value sym par value 5 gt lt gt NOT amp amp AND OR 6 0 7 X 135 c a b 8 1fX if condition LI j else X 3 X4 j condition 1 X2 f amp O LEX 3 4 else 9 while X while condition Xka Done j condition
166. on Voff Vo VoFff Vi Vit Vi Vo Voff Von Vo Von Vi Active Wi Vo D3 4 5 Comparator Vibrator v Vi a
167. p A s JS 5e Window NAR RT eto deo tra ire Ee rada t orem be odora GLI 2 3 4 5 6 7 8 9 BAA US pr OU CR TRU HIS PP AS usw D S d Cm Jie re oss B odlienoy esu tiques ebRPBeIRex Rid xc OO WE NE Amp Phs i CT 0 YA SE RON ES En RE IO RC EN ci E E E 1 9 MEE aloes biu E End C115 ues gessit SOS ur nre esaet aai id utor Ds 1 4 Pk en RR 84 TES or mE 84 WEE Ne 84 1 7 qmd v ay Veir OPTION Scope cczcvexctues 84 A Do PRAC pow Foa Ebo PES 3b 2womp 3b 84 85 85 3 Frequency 85 CONS uM AME MP 86 LY do d UE PL 86 6 X Adjust AdX 4 86 v YNS RID Lbauasd aseo io i e To 86 8 68MD osse e erre E 86 LO BHBASTS OR BM NRNRNKMK NO ON 86 87 CM NC UE 87 EN CN 87 EC EE EE E T 87 CL ul NA CUBE r a a o ar a NOS aa 87 CEE oS aaa EE 88 16 Veiw Option Scope 88 4a O CMP Ode WO 88 Cu ROD CC Edda E Rent E EET S 89 Qo MU cya A o Em 89 3 X Axis 89 Ak DAC PEE 89 4 4 4 4 4 5 Positive Negative P N I G
168. sym type mode ID db Param sym par sym par ReadCircuit file file CVT ReadCircuit filehead n filehead n Bl circuito CVT 4 SaveCircuit file file CVT SaveCircuit filehead n filehead n ffl circuito CVT SaveCMP file CMP file CMP SaveCMP filehead n CMP filehead n circuit5 CMP SaveFFT file FF file FET 139 SaveFFT filehead n FFT filehead n Bi circuitb 72 7 FFT SaveFRA file FRA
169. to read data files 129 SO 0 0 8 3 O 1 An invalid device is detected 20 0 2 Invalid connection is detected 3 No outputs are set Parameter Output 4 No printers are installed Windows 5 Invalid data TT AO EC TD EC A 6 Cannot delete an operation operand
170. x 4 Ave 5 Ini 6 Fin Pkv Analysis Transient Analysis Sweep cx Limit View Option Default Limit Color 67 Parameter Output WVE 0utputs Parameters Type Mode
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