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tests.py
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import math
from dslib.pdf2txt.parse import tabula_read, parse_datasheet, parse_row_value, dim_regs
def parse_line_tests():
# raise NotImplemented()
n = math.nan
cases = [
# (CSV_ROW, DIM, (MIN,TYP,MAX))
('Gate plateau voltage,Vplateau,nan,nan,4.7,nan,"VDD 40 V, ID= 20 A , VGS = 0 toV",10 V,,,', 'Vpl', (n, 4.7, n)),
# "Output capacitance,C oss,f= 1 MHz,nan,2890.0,3840,nan"
# "Rise Time tr,VDS=50V, RG=3Ω, -,46,nan,-,nan"
# "Fall Time tf,-,44,nan,-,nan"
# "Output Capacitance Coss,F=1MHz -,1263,nan,-,pF"
("Reverse Recovery Charge Q rr,di/dt=100A/μs -,0.26,nan,-,uC", 'Q', (n, 0.26, n)),
# "V GS=0V, V DS=25V, Output capacitance C oss,f =1MHz,nan,-,2520,3276,nan"
# "COSS(TR),Effective Output Capacitance, Time Related (Note 2),nan,1371,nan,nan,nan"
# "QG(TH),Gate Charge at Threshold,nan,4.6,nan,nan,nC"
# "Output capacitance,C oss-,240,320,nan,f=1 MHz"
# "Gate-Drain Charge - Gate-Drain-Ladung Industrial /-Q,nan,-,4 nC,-"
# "QgsGate charge gate-to-source,25,nC,nan,nan,nan,nan,nan"
("QgdGate charge gate-to-drain,11,nC,nan,nan,nan,nan,nan", 'Q', (n, 11, n)),
("Qrr,nan,VDD = 64 V (see Figure 15: \"Test,-,66,nan,nC", 'Q', (n, 66, n)),
("Qgd,Gate-drain charge,behavior\"),-,28,-,nC", 'Q', (n, 28, n)),
# "COSS,Output Capacitance,nan,nan,1045.0,1465.0,nan"
("QgsGate charge gate-to-source,25,nC,nan,nan,nan,nan,nan", 'Q', (n, 25, n)),
('Gate plateau voltage,Vplate au,,,4.4,,V,"VDD 40 V, ID = 50 A, VGS = 0 to 10 V",,,,,', 'V', (n, 4.4, n)),
("Gate plateau voltage,V plateau,nan,4.6,-,IV", 'V', (n, 4.6, n)),
("Rise Time3,4 tr,VDD=75V, RG=3Ω, VGS=10V, -,90,-,nan", 't', (n, 90, n)),
("COSS(ER),Effective Output Capacitance, Energy Related (Note 1),VDS = 0 to 50 V, VGS = 0 V,nan,1300,nan,nan",
'C', (n, 1300, n)),
('Gate to drain charge1 ),Qgd,,,20,29,nC,"VDD =40 V, ID = 50 A, VGS = 0 to 10 V",,,,,', 'Q', (n, 20, 29)),
("Gate-to-Source Charge,QGS,VGS = 10 V, VDS = 75 V; ID = 41 A,15.0,nan,nC", "Q", (n, 15, n)),
("Gate-Drain Charge,nan,Qgd,nan,nan,nan,13,nan,nan,nan,nC", 'Q', (n, 13, n)),
("Output capacitance,C oss,nan,-,231.0,300,nan", 'C', (n, 231, 300)),
(
"Coss eff.(TR) Output Capacitance (Time Related),---,385,---,VGS = 0V, VDS = 0V to 80V,nan", 'C', (n, 385, n)),
("Effective Output Capacitance,---,154,---,pF f = 1.0MHz, See Fig.5,nan", 'C', (n, 154, n)),
("nan,Coss,nan,7.0,nan", 'C', (n, 7, n)),
("Threshold Gate Charge,QG(TH),nan,9.1,nan,nC", 'Q', (n, 9.1, n)),
("Qg(th),-,36,-,nC", 'Q', (n, 36, n)),
("Reverse recovery charge - Sperrverzugsladung,Qrr,-,-,106 nC", 'Q', (n, n, 106)),
("Reverse Recovery Charge Qrr nCIF = 80A, VGS = 0V--,297,--,nan", 'Q', (n, 297, n)),
("Coss Output Capacitance,---,319,---,VDS = 50V,nan", 'C', (n, 319, n)),
("tf fall time,nan,nan,- 49.5 - ns", 't', (n, 49.5, n)),
("/dt = 100 A/μsReverse recovery charge,Q rr,-dI DR,nan,nan,35,nan,nC", 'Q', (n, 35, n)),
("Output Capacitance Coss VDS = 50V,--,3042,--,pF", 'C', (n, 3042, n)),
# "Output capacitance,C oss,nan,-,523.0,696,nan"
# "Output Capacitance,Coss,--,392,--,nan,nan"
# "2000.0,Coss"
# "Coss Output Capacitance,VGS = 0 V, VDS = 50 V, ƒ = 1 MHz,nan,560,728,pF"
# C oss output capacitance,Tj = 25 °C; see Figure 16,-,700,-,pF
# "Output Capacitance,COSS,nan,1690.0,nan"
# datasheets/diotec/DIT095N08.pdf error parsing field with col_idx {'min': 2, 'max': 4, 'unit': 0} all nan Field("Coss", min=nan, typ=nan, max=nan, unit="None", cond={0: 'Output Capacitance – Ausgangskapazität'})
# ['Output Capacitance – Ausgangskapazität' nan nan nan nan] Output Capacitance - Ausgangskapazität,nan,nan,nan,nan Output Capacitance - Ausgangskapazität,Ciss,-,6800 pF,- Output Capacitance - Ausgangskapazität,Coss,-,350 pF,-
# datasheets/diotec/DIT095N08.pdf tRise no value match in "Turn-On Delay & Rise Time - Einschaltverzögerung und Anstiegszeit,nan,nan,nan,nan"
# "Coss,Output Capacitance,---,340,---,nan,nan,nan"
# "Coss eff. (ER),Effective Output Capacitance (Energy Related),---,420,---,VGS = 0V, VDS = 0V to 80V, See Fig.11,nan,nan"
# "Reverse Recovery Charge Qrr nCIF = 80A, VGS = 0V--,297,--,nan"
# "Output Capacitance Coss VDS = 50V, --,2730,--,pF"
# "Coss eff. (ER),Effective Output Capacitance (Energy Related),---,757,---,VGS = 0V, VDS = 0V to 80VSee Fig.11,nan"
# "Threshold Gate Charge,QG(TH),nan,9.1,nan,nC"
#
]
for rl, sym, (min, typ, max) in cases:
dim = sym[:1]
f = parse_row_value(rl, dim, field_sym=sym)
if not f:
print('\n'.join(map(str, dim_regs[dim])))
assert f, (rl, dim)
assert math.isnan(min) or min == f.min, f
assert math.isnan(typ) or typ == f.typ, (f,typ)
assert math.isnan(max) or max == f.max, f
# "Coss output capacitance,nan,VDS = 50 V; VGS = 0 V; f = 1 MHz;,-,380,-,pF"
def parse_pdf_tests():
# TODOå
d = tabula_read('datasheets/infineon/BSC025N08LS5ATMA1.pdf')
assert d.Vpl.typ == 2.6
d = tabula_read('datasheets/infineon/IPB019N08N3GATMA1.pdf')
assert d.Vpl.typ == 4.6
d = tabula_read('datasheets/infineon/BSC021N08NS5ATMA1.pdf')
assert d['tRise'].typ == 17
assert d['tFall'].typ == 20 # tFall has typ because it doesnt match the regex
assert d.Qrr.typ == 80 and d.Qrr.max == 160
assert d.Qsw.typ == 29
assert d.Qgd.typ == 20 and d.Qgd.max == 29
assert d.Vpl.typ == 4.4
d = tabula_read('datasheets/onsemi/NTP011N15MC.pdf')
assert d.Qgs.typ == 15
d = tabula_read('datasheets/diotec/DIT085N10-AQ.pdf')
assert d.Qrr.max == 106
d = tabula_read('datasheets/infineon/IAUA210N10S5N024AUMA1.pdf')
assert d.Qgd.typ == 18 and d.Qgd.max == 27
d = parse_datasheet('datasheets/infineon/IPF015N10N5ATMA1.pdf')
assert d.Qg_th.typ == 36
assert d.Qgs.typ == 53
assert d.Qgd.typ == 34 and d.Qgd.max == 51
d = parse_datasheet('datasheets/ti/CSD19532KTTT.pdf')
assert d.Qgd.typ == 5.6
assert d.Qgs.typ == 17
assert d.Qg_th.typ == 9.6
assert d.Qrr.typ == 326
d = parse_datasheet('datasheets/panjit/PSMP050N10NS2_T0_00601.pdf')
assert d['Vpl'].typ == 5
assert d['Qgs'].typ == 15
assert d['Qrr'].typ == 85 and d['Qrr'].max == 170
d = parse_datasheet('datasheets/goford/GT023N10TL.pdf')
assert d['Qrr'].typ == 297
# assert d['Coss'] == 2730
d = parse_datasheet('datasheets/vishay/SUD70090E-GE3.pdf')
# assert d['Coss'].typ == 845
d = parse_datasheet('datasheets/goford/GT52N10D5.pdf')
# assert d['Coss'].typ == 380
assert d['Qrr'].typ == 87
d = parse_datasheet('datasheets/vishay/SIR622DP-T1-RE3.pdf')
assert d['Qrr'].typ == 350 and d['Qrr'].max == 680
# datasheets/onsemi/NTBLS1D1N08H.pdf
# d = parse_datasheet('../datasheets/infineon/IPA050N10NM5SXKSA1.pdf')
# assert d['Rdson'].max == 5.0
d = parse_datasheet('datasheets/infineon/IRF100B202.pdf')
assert d['tRise'].typ == 56
assert d['tFall'].typ == 58
assert d['Coss'].typ == 319 # (ER)=355 TODO
assert d['Qrr'].typ == 133 # or 105 TODO
# GT016N10TL
d = parse_datasheet('datasheets/goford/GT016N10TL.pdf')
assert d['Qrr'].typ == 166
d = tabula_read('datasheets/toshiba/TPH5R60APL,L1Q.pdf')
assert d['Qrr'].typ == 55
assert d['Qgs'].typ == 12
assert d.Qsw.typ == 14
# d = tabula_read('datasheets/vishay/SUM70042E-GE3.pdf')
# assert d['Qrr'].typ == 126 # type in datasheet uC = nC
d = tabula_read('datasheets/ts/TSM089N08LCR RLG.pdf')
assert d['Qrr'].typ == 35
assert d['tFall'].typ == 24
assert d['tRise'].typ == 21
d = tabula_read('datasheets/infineon/IAUZ40N08S5N100ATMA1.pdf')
assert d['tRise'].typ == 1
assert d['tFall'].typ == 5
assert d['Qrr'].typ == 32
assert d['Coss'].typ == 231 and d.Coss.max == 300
d = tabula_read('datasheets/st/STL135N8F7AG.pdf')
assert d['Qrr'].typ == 66
d = tabula_read('datasheets/toshiba/TK6R9P08QM,RQ.pdf')
assert d['Qrr'].typ == 35
d = tabula_read('datasheets/toshiba/TPH2R408QM,L1Q.pdf')
assert d['Qrr'].typ == 74
d = tabula_read('datasheets/vishay/SIR826DP-T1-GE3.pdf')
assert d['Qrr'].typ == 78
assert d['Qrr'].max == 155
d = tabula_read('datasheets/ti/CSD19505KTT.pdf')
assert d['tRise'].typ == 5
assert d['tFall'].typ == 3
assert d['Qrr'].typ == 400
assert d['Qg_th'].typ == 15
d = tabula_read('datasheets/vishay/SUM60020E-GE3.pdf')
assert d['Qrr'].typ == 182 and d['Qrr'].max == 275
assert d['tRise'].typ == 13
assert d['tFall'].typ == 15
d = tabula_read('datasheets/onsemi/NVBGS1D2N08H.pdf') # discontinued NRFND
assert d['Qrr'].typ == 122
d = tabula_read('datasheets/infineon/IAUA180N08S5N026AUMA1.pdf')
assert d['tRise'].typ == 7
assert d['tFall'].typ == 16
assert d['Qrr'].typ == 85
assert d
d = tabula_read('datasheets/onsemi/NTMFSC004N08MC.pdf')
assert d['tRise'].typ == 21.5
assert d['tFall'].typ == 5.4
# d = tabula_read('datasheets/onsemi/NVMFWS2D1N08XT1G.pdf') # fail
# assert d['tRise'].typ == 7
# assert d['tFall'].typ == 5
# assert d['Qrr'].typ == 104
d = tabula_read('datasheets/onsemi/NVMFWS4D5N08XT1G.pdf')
assert d['tRise'].typ == 7
assert d['tFall'].typ == 5
assert d['Qrr'].typ == 104
d = tabula_read('datasheets/nxp/PSMN4R4-80BS,118.pdf') # multiple 'typ' headers
assert d['tRise'].typ == 38.1
assert d['tFall'].typ == 18.4
assert d['Qrr'].typ == 130
d = tabula_read('datasheets/onsemi/NVMFWS1D5N08XT1G.pdf')
assert d['tRise'].typ == 10
assert d['tFall'].typ == 9
assert d['Qrr'].typ == 290
tabula_read('datasheets/diotec/DIT095N08.pdf')
d = tabula_read('datasheets/infineon/BSZ084N08NS5ATMA1.pdf') # need OCR (pdf reader pro))
assert d['tRise'].typ == 5
assert d['tFall'].typ == 5
assert d['Qrr'].typ == 44 and d['Qrr'].max == 88
assert d.Vpl.typ == 4.7
d = tabula_read('datasheets/infineon/IPB033N10N5LFATMA1.pdf')
assert d.Vpl.typ == 6.9
d = tabula_read('datasheets/st/STL120N8F7.pdf')
assert d['tRise'].typ == 16.8
assert d['tFall'].min == 15.4
assert d['Qrr'].typ == 65.6
# rise 38.1 fall 18.4
d = tabula_read('datasheets/nxp/PSMN8R2-80YS,115.pdf')
# assert d # doenst work tabula doesnt find the tables right
d = tabula_read('datasheets/infineon/BSZ075N08NS5ATMA1.pdf')
assert d['tRise'].typ == 4
assert d['tFall'].typ == 4
d = tabula_read('datasheets/onsemi/FDP027N08B.pdf')
assert d['tRise'].typ == 66 and d['tRise'].max == 142
assert d['tFall'].typ == 41 and d['tFall'].max == 92
assert d['Qgs'].typ == 56
assert d['Qgs2'].typ == 25
assert d['Qgd'].typ == 28
d = tabula_read('datasheets/onsemi/FDBL0150N80.pdf')
assert d['tRise'].typ == 73
assert d['tFall'].typ == 48
tabula_read('datasheets/diodes/DMTH8003SPS-13.pdf')
#
tabula_read('datasheets/vishay/SIR680ADP-T1-RE3.pdf')
d = tabula_read('datasheets/vishay/SUM60020E-GE3.pdf')
assert d['tRise'].typ == 13
assert d['tRise'].max == 26
assert d['tFall'].typ == 15
assert d['tFall'].max == 30
assert d['Qrr'].typ == 182
d = parse_datasheet(mfr='vishay', mpn='SUM60020E-GE3')
assert d['Qrr'].typ == 182.
assert d['Qrr'].max == 275.
d = parse_datasheet(mfr='diodes', mpn='DMTH8003SPS-13')
assert d['Qrr'].typ == 118.7
d = parse_datasheet(mfr='toshiba', mpn='TK6R9P08QM,RQ')
assert d['Qrr'].typ == 35
d = parse_datasheet(mfr='toshiba', mpn='TK100E08N1,S1X')
assert d['Qrr'].typ == 190
d = parse_datasheet(mfr='onsemi', mpn='FDBL0150N80')
assert d['Qrr'].typ == 205
assert d['Qrr'].max == 269
d = parse_datasheet(mfr='onsemi', mpn='FDP027N08B')
assert d['Qrr'].typ == 112
if __name__ == '__main__':
parse_line_tests()
parse_pdf_tests()
# tests()