[Config]
NO_ANALYSER=True
Name=_Anritsu
LogFilename=C:\Users\john\Desktop\Anritsu\_Anritsu.log
ProtectionAttenuatorAvailableValues=0dB|5dB|10dB|15dB|20dB|25dB|30dB|35dB|40dB|45dB|50dB|55dB|60dB
ProtectionAttenuatorLastUsedValue=30dB
MainPanel_Title=Anritsu MT8801 Radio Test Set Controller
MainPanel_W=1720
MainPanel_H=800
MainPanel_L=100
MainPanel_T=50
PanelList1_Style=2051
PanelButt1_Caption=Select
MT8801Port_Number=10
MT8801Port_BaudRate=9600
MT8801Port_ParityBit=None
MT8801Port_ByteSize=8
MT8801Port_StopBits=One
MT8801Port_Xon=On
MT8801Comm_TimeOut=10000
MT8801Comm_MaxLen=200
MT8801Port_InstanceID=USB\VID_1A86&PID_7523\5&87AD679&0&2
DevCatPort_Number=1
DevCatPort_BaudRate=9600
DevCatPort_ParityBit=None
DevCatPort_ByteSize=8
DevCatPort_StopBits=One
DevCatPort_Xon=On
DevKeyPort_Number=1
DevKeyPort_BaudRate=9600
DevKeyPort_ParityBit=None
DevKeyPort_ByteSize=8
DevKeyPort_StopBits=One
DevKeyPort_Xon=On
MT8801Title=TBA
MT8801RFPort=MAIN

[RadioSpec_FT817]
Name=Yaesu FT817
Info=TestSeq||ModeID(1)TestID(2)BandID(1), DefaultAntenna(1)OtherAntennas(~), uV spec if available
Info1=Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB
Info2=Antennas are F-Front, R-Rear, V-VHF, H-HF, T-Top, B-Bottom, or number of Ant Port, e.g. 1
MaxTXPower=5W
Duplex=Half
C=0.2,5,0,5,0.125,5,x,x,FR
D=0.2,5,0,5,0.125,5,x,x,FR
E=0,x,0,x,0,x,x,x,FR
F=x,x,0,x,0,x,0,x,FR
G=x,x,x,x,x,x,x,x,x,FR
H=0.32,5,2,5,0.2,5,x,x,FR
I=0.5,5,2,5,0.25,5,x,x,FR
J=0,5,2,5,0.25,5,x,x,FR
K=0,5,2,5,0.25,5,x,x,FR
L=0,5,2,5,0.25,5,x,x,FR
M=0,5,2,5,0.25,5,x,x,FR
N=0,5,2,5,0.25,5,x,x,FR
O=0,5,2,5,0.25,5,x,x,FR
P=0,x,2,x,0.25,x,x,x,FR
Q=0,5,2,5,0.25,5,x,x,FR
R=0,5,2,5,0.25,5,x,x,FR
S=0,x,3,x,0,x,x,x,FR
T=0,x,0,x,0,x,x,x,FR
X=
Note1=Possibly split test code into = F,08,C,FR,0.2
Note2=Func LoadTestScript() being modified to split this into an array
Test1=F03C,FR,0.2
Test2=F04C,FR
Test3=F05C,FR
Test4=F06C,FR
Test5=F07C,FR
Test6=F08C,FR
Test7=F03F,FR,0.2
Test8=F04F,FR
Test9=F05F,FR
Test10=F06F,FR
Test11=F07F,FR
Test12=F08F,FR
Test13=F03D,FR,0.2
Test14=F04D,FR
Test15=F05D,FR
Test16=F06D,FR
Test17=F07D,FR
Test18=F08D,FR
Test19=F03E,FR
Test20=F04E,FR
Test21=F05E,FR
Test22=F06E,FR
Test23=F07E,FR
Test24=F08E,FR
Test25=W03F,FR
Test26=W04F,FR
Test27=W05F,FR
Test28=W06F,FR
Test29=W07F,FR
Test30=W08F,FR
Test31=F03H,FR,0.32
Test32=F04H,FR
Test33=F05H,FR
Test34=F06H,FR
Test35=F07H,FR
Test36=F08H,FR
Test37=F03I,FR,0.5
Test38=F04I,FR
Test39=F05I,FR
Test40=F06I,FR
Test41=F07I,FR
Test42=F08I,FR
Test43=F03J,FR
Test44=F04J,FR
Test45=F05J,FR
Test46=F06J,FR
Test47=F07J,FR
Test48=F08J,FR
Test49=F03K,FR
Test50=F04K,FR
Test51=F05K,FR
Test52=F06K,FR
Test53=F07K,FR
Test54=F08K,FR
Test55=F03L,FR
Test56=F04L,FR
Test57=F05L,FR
Test58=F06L,FR
Test59=F07L,FR
Test60=F08L,FR
Test61=F03M,FR
Test62=F04M,FR
Test63=F05M,FR
Test64=F06M,FR
Test65=F07M,FR
Test66=F08M,FR
Test67=F03N,FR
Test68=F04N,FR
Test69=F05N,FR
Test70=F06N,FR
Test71=F07N,FR
Test72=F08N,FR
Test73=F03O,FR
Test74=F04O,FR
Test75=F05O,FR
Test76=F06O,FR
Test77=F07O,FR
Test78=F08O,FR
Test79=F03P,FR
Test80=F04P,FR
Test81=F05P,FR
Test82=F06P,FR
Test83=F07P,FR
Test84=F08P,FR
Test85=F03Q,FR
Test86=F04Q,FR
Test87=F05Q,FR
Test88=F06Q,FR
Test89=F07Q,FR
Test90=F08Q,FR
Test91=F03R,FR
Test92=F04R,FR
Test93=F05R,FR
Test94=F06R,FR
Test95=F07R,FR
Test96=F08R,FR
Test97=F03S,FR
Test98=F04S,FR
Test99=F05S,FR
Test100=F06S,FR
Test101=F07S,FR
Test102=F08S,FR
Test103=F03T,FR
Test104=F04T,FR
Test105=F05T,FR
Test106=F06T,FR
Test107=F07T,FR
Test108=F08T,FR

[RadioSpec_FT100]
Name=Yaesu FT100/D
Info=TestSeq||ModeID(1)TestID(2)BandID(1), DefaultAntenna(1)OtherAntennas(~), uV spec if available
Info1=Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB
Info2=Antennas are F-Front, R-Rear, V-VHF, H-HF, T-Top, B-Bottom, or number of Ant Port, e.g. 1
MaxTXPower=100W
Duplex=Half
C=0.2,5,0,5,0.125,5,x,x,FR
D=0.2,5,0,5,0.125,5,x,x,FR
E=0,x,0,x,0,x,x,x,FR
F=x,x,0,x,0,x,0,x,FR
G=x,x,x,x,x,x,x,x,x,FR
H=0.32,5,2,5,0.2,5,x,x,FR
I=0.5,5,2,5,0.25,5,x,x,FR
J=0,5,2,5,0.25,5,x,x,FR
K=0,5,2,5,0.25,5,x,x,FR
L=0,5,2,5,0.25,5,x,x,FR
M=0,5,2,5,0.25,5,x,x,FR
N=0,5,2,5,0.25,5,x,x,FR
O=0,5,2,5,0.25,5,x,x,FR
P=0,x,2,x,0.25,x,x,x,FR
Q=0,5,2,5,0.25,5,x,x,FR
R=0,5,2,5,0.25,5,x,x,FR
S=0,x,3,x,0,x,x,x,FR
T=0,x,0,x,0,x,x,x,FR
X=
Note1=Possibly split test code into = F,08,C,FR,0.2
Note2=Func LoadTestScript() being modified to split this into an array
Test1=F03C,V
Test2=F04C,V
Test3=F05C,V
Test4=F06C,V
Test5=F07C,V
Test6=F08C,V
Test7=F03F,FR,0.2
Test8=F04F,FR
Test9=F05F,FR
Test10=F06F,FR
Test11=F07F,FR
Test12=F08F,FR
Test13=F03D,V
Test14=F04D,V
Test15=F05D,V
Test16=F06D,V
Test17=F07D,V
Test18=F08D,V
Test19=F03E,V
Test20=F04E,V
Test21=F05E,V
Test22=F06E,V
Test23=F07E,V
Test24=F08E,V
Test25=W03F,V
Test26=W04F,V
Test27=W05F,V
Test28=W06F,V
Test29=W07F,V
Test30=W08F,V
Test31=F03H,H
Test32=F04H,H
Test33=F05H,H
Test34=F06H,H
Test35=F07H,H
Test36=F08H,H
Test37=F03I,H
Test38=F04I,H
Test39=F05I,H
Test40=F06I,H
Test41=F07I,H
Test42=F08I,H
Test43=F03J,H
Test44=F04J,H
Test45=F05J,H
Test46=F06J,H
Test47=F07J,H
Test48=F08J,H
Test49=F03K,H
Test50=F04K,H
Test51=F05K,H
Test52=F06K,H
Test53=F07K,H
Test54=F08K,H
Test55=F03L,H
Test56=F04L,H
Test57=F05L,H
Test58=F06L,H
Test59=F07L,H
Test60=F08L,H
Test61=F03M,H
Test62=F04M,H
Test63=F05M,H
Test64=F06M,H
Test65=F07M,H
Test66=F08M,H
Test67=F03N,H
Test68=F04N,H
Test69=F05N,H
Test70=F06N,H
Test71=F07N,H
Test72=F08N,H
Test73=F03O,H
Test74=F04O,H
Test75=F05O,H
Test76=F06O,H
Test77=F07O,H
Test78=F08O,H
Test79=F03P,H
Test80=F04P,H
Test81=F05P,H
Test82=F06P,H
Test83=F07P,H
Test84=F08P,H
Test85=F03Q,H
Test86=F04Q,H
Test87=F05Q,H
Test88=F06Q,H
Test89=F07Q,H
Test90=F08Q,H
Test91=F03R,H
Test92=F04R,H
Test93=F05R,H
Test94=F06R,H
Test95=F07R,H
Test96=F08R,H
Test97=F03S,H
Test98=F04S,H
Test99=F05S,H
Test100=F06S,H
Test101=F07S,H
Test102=F08S,H
Test103=F03T,H
Test104=F04T,H
Test105=F05T,H
Test106=F06T,H
Test107=F07T,H
Test108=F08T,H

[RadioSpec_UV-5R]
Name=BaoFeng UV-5R
Info=TestSeq||ModeID(1)TestID(2)BandID(1), DefaultAntenna(1)OtherAntennas(~), uV spec if available
Info1=Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB
Info2=Antennas are F-Front, R-Rear, V-VHF, H-HF, T-Top, B-Bottom, or number of Ant Port, e.g. 1
MaxTXPower=5W
Duplex=Half
Test1=F03C,T
Test2=F04C,T
Test3=F05C,T
Test4=F06C,T
Test5=F07C,T
Test6=F08C,T
Test7=N03C,T
Test8=N04C,T
Test9=N05C,T
Test10=N06C,T
Test11=N07C,T
Test12=N08C,T
Test13=F03D,T
Test14=F04D,T
Test15=F05D,T
Test16=F06D,T
Test17=F07D,T
Test18=F08D,T
Test19=N03D,T
Test20=N04D,T
Test21=N05D,T
Test22=N06D,T
Test23=N07D,T
Test24=N08D,T

[RadioSpec_Short_Test]
Name=Short_Test
Info=TestSeq||ModeID(1)TestID(2)BandID(1), DefaultAntenna(1)OtherAntennas(~), uV spec if available
Info1=Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB
Info2=Antennas are F-Front, R-Rear, V-VHF, H-HF, T-Top, B-Bottom, or number of Ant Port, e.g. 1
MaxTXPower=5W
Duplex=Half
Test1=F03C,T
Test7=N03C,T
Test13=F03D,B
Test19=N03D,B

[xRadioSpec_FT817]
1=FM	0.2μV	0.2μV	n/a	n/a	n/a	0.32μV	0.5μV	n/a	n/a	n/a	n/a	n/a	n/a	n/a	n/a	n/a	n/a	n/a
2=CW	0.125μV	0.125μV	n/a	n/a	n/a	0.2μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	0.25μV	n/a	n/a
3=AM	n/a	n/a	n/a	n/a	n/a	2μV	2μV	2μV	2μV	2μV	2μV	2μV	2μV	2μV	2μV	2μV	32μV	n/a
4= Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB

[xRadioSpec_Test]

[ResultRowMap]
F03=36
F04=37
F05=38
F06=39
F07=40
F08=41
W03=36
W04=37
W05=38
W06=39
W07=40
W08=41
C04=74
C05=75
C06=76
C07=77
C08=78
0=etc

[TestsRaw]
1=On Band Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to FM*, Set SQL fully open, Set IPO on**, Set ATT off, Set NAR off. (*WFM on 98MHz only) (**Below 70MHz only)
2=On Band Change	Setup	Set Generator frequency to Channel fc. Set Modulation Mode to FM, Frequency to 1kHz, Deviation to 2.5kHz*. (*20kHz on 98MHz only)
3=1	Performance	Adjust Generator Output Level in steps of 1 dBm to achieve SINAD reading closest to 12dB. Note Generator Output Level less Power Attenuator value.
4=2	Baseline	Increase Generator Output Level in steps of 1 dBm until S-meter moves from 0 to 1. Avoid hysteresis effects by only noting transition from 0 to 1. Note Generator Output Level  less Power Attenuator valuefor S1.
5=3	Baseline	Increase Generator Output Level in steps of 1 dBm until S-meter moves from 4 to 5. Avoid hysteresis effects by only noting transition from 4 to 5. Note Generator Output Level less Power Attenuator value for S5.
6=4	Baseline	Increase Generator Output Level in steps of 1 dBm until S-meter moves from 8 to 9. Avoid hysteresis effects by only noting transition from 8 to 9. Note Generator Output Level  less Power Attenuator value for S9.
7=5	Baseline	Adjust Generator Output Level in steps of 0.1 dBm for 20dB SINAD at channel frequency. Without changing the Level, tune Generator frequency lower, in steps of 100Hz, until 14dB SINAD is shown. Record flo. 
8=6	Baseline	Without changing the Generator Output Level from Test 5, tune Generator frequency higher, in steps of 100Hz, until 14dB SINAD is shown. Record fhi. 
9={Zero Beat} CW only
10={DeltaVFO}
11={6dB bandwidth}
12=
13=On Band Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to FM, Set PWR hi, Set NAR off.
14=On Band Change	Setup	Set Power Meter frequency to Channel fc *. Set Audio Generator Frequency to 1kHz, Audio Generator Level to 5mV. (*if required)
15=1	Compliance	Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
16=2	Compliance	Set Mode to SSB. Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
17=3	Compliance	Set Mode to AM. Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
18=4	Performance	Set Mode to FM. Key Transmitter. Note power output after 1 minute. Unkey transmitter. (Warning - ensure that power attenuator does not get hot)
19=5	Performance	Set half Maximum power. Key Transmitter. Note power output. Unkey transmitter.
20=6	Performance	Set Minimum power. Key Transmitter. Note power output. Unkey transmitter.
21=
22=On Band Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to FM, Set PWR hi, Set NAR off.
23=On Band Change	Setup	Set Power Meter frequency to Channel fc *. Set Audio Generator Frequency to 1kHz, Audio Generator Level to 15mV. (*if required)
24=	Setup	Set Spectrum Analyser Start Frequency to 'Analyser Start'
25=	Setup	Set Spectrum Analyser Finish Frequency to 'Analyser Finish'
26=1	Compliance	Key Transmitter. Capture image from Spectrum Analyser and save as compliance evidence. Note maximum level of any spurious signal apart from the harmonics. Unkey transmitter.
27=2	Compliance	Note power of the second harmonic (from saved image, or whilst TX is keyed for test 1)
28=3	Compliance	Note power of the third harmonic (from saved image, or whilst TX is keyed for test 1)
29=	Setup	Set Spectrum Analyser Centre Frequency to Channel fc
30=	Setup	Set Spectrum Analyser Span to 400kHz
31=4	Baseline	Key transmitter. On the spectrum analyser, find the lower frequency where the level is 6dB lower than the maximum. Note the frequency.
32=5	Baseline	On the spectrum analyser, find the higher frequency where the level is 6dB lower than the maximum. Note the frequency. Unkey transmitter.
33=
34=Channel Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to FM, Set PWR hi, Set NAR off.
35=Channel Change	Setup	Set Power Meter frequency to Channel fc *. Set Audio Generator Frequency to 1kHz, Audio Generator Level to 15mV. (*if required)
36=1	Compliance	Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
37=2	Performance	Key Transmitter. Note power output after 1 minute. Unkey transmitter.
38=3	Compliance	Key Transmitter. Capture spectral image of fundamental to third harmonic. Note maximum level of any spurious signal apart from the harmonics. Unkey transmitter.
39=4	Compliance	Note power of the second harmonic
40=5	Compliance	Note power of the third harmonic
41=6	Baseline	Key transmitter. On the spectrum analyser, find the lower frequency where the level is 6dB lower than the maximum. Note the frequency.
42=7	Baseline	On the spectrum analyser, find the higher frequency where the level is 6dB lower than the maximum. Note the frequency. Unkey transmitter.
43=8	Performance	Set half Maximum power. Key Transmitter. Note power output. Unkey transmitter.
44=9	Performance	Set Minimum power. Key Transmitter. Note power output. Unkey transmitter.
45=10	Compliance	Key transmitter. Note frequency. Unkey transmitter.
46=11	Compliance	Key transmitter. Note deviation. Unkey transmitter.
47=12	Compliance	Set Mode to FMN (NAR on). Key transmitter. Note deviation. Unkey transmitter.
48=
49=Channel Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to CW (usb), Set PWR hi, Set NAR off.
50=Channel Change	Setup	Set Power Meter frequency to Channel fc * (*if required)
51=1	Compliance	Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
52=2	Performance	Key Transmitter. Note power output after 1 minute. Unkey transmitter.
53=3	Compliance	Key Transmitter. Capture spectral image of fundamental to third harmonic. Note maximum level of any spurious signal apart from the harmonics. Unkey transmitter.
54=4	Compliance	Note power of the second harmonic
55=5	Compliance	Note power of the third harmonic
56=6	Baseline	Key transmitter. On the spectrum analyser, find the lower frequency where the level is 6dB lower than the maximum. Note the frequency.
57=7	Baseline	On the spectrum analyser, find the higher frequency where the level is 6dB lower than the maximum. Note the frequency. Unkey transmitter.
58=8	Performance	Set half Maximum power. Key Transmitter. Note power output. Unkey transmitter.
59=9	Performance	Set Minimum power. Key Transmitter. Note power output. Unkey transmitter.
60=10	Compliance	Key transmitter. Note frequency. Unkey transmitter.
61=
62=Channel Change	Setup	Set Radio dial frequency to Channel fc. Set Mode to AM, Set PWR hi, Set NAR off.
63=Channel Change	Setup	Set Power Meter frequency to Channel fc *. Set Audio Generator Frequency to 1kHz, Audio Generator Level to 15mV. (*if required)
64=1	Compliance	Set Maximum power. Key Transmitter. Note power output. Unkey transmitter.
65=2	Performance	Key Transmitter. Note power output after 1 minute. Unkey transmitter.
66=3	Compliance	Key Transmitter. Capture spectral image of fundamental to third harmonic. Note maximum level of any spurious signal apart from the harmonics. Unkey transmitter.
67=4	Compliance	Note power of the second harmonic
68=5	Compliance	Note power of the third harmonic
69=6	Baseline	Key transmitter. On the spectrum analyser, find the lower frequency where the level is 6dB lower than the maximum. Note the frequency.
70=7	Baseline	On the spectrum analyser, find the higher frequency where the level is 6dB lower than the maximum. Note the frequency. Unkey transmitter.
71=8	Performance	Set half Maximum power. Key Transmitter. Note power output. Unkey transmitter.
72=9	Performance	Set Minimum power. Key Transmitter. Note power output. Unkey transmitter.
73=10	Compliance	Key transmitter. Note frequency. Unkey transmitter.
74=11	Compliance	Key transmitter. Note modulation depth. Unkey transmitter.
75=

[Bands]
Info=£BandID||BandName#CentreFrequency(MHz)
\C=70cm#435.000
\D=2m#145.000
\E=Air#127.000
\F=FM BC#98.000
\G=4m#70.250
\H=6m#51.000
\I=10m#28.850
\J=12m#24.940
\K=15m#21.225
\L=17m#18.118
\M=20m#14.175
\N=30m#10.125
\O=40m#7.100
\P=60m#5.358
\Q=80m#3.650
\R=160m#1.905
\S=MW BC#1.065
\T=LW BC#0.310

[Modes]
Info= Modes are F-FM, N-FMnarrow, W-FMwide, A-AM, C-CW, U-USB, L-LSB
\A=AM
\C=CW
\F=25kHz FM
\L=LSB
\N=12.5kHz FM
\U=USB
\W=100kHz FM

[Ports]
Info=Antennas are F-Front, R-Rear, V-VHF, H-HF, T-Top, B-Bottom, or number of Ant Port, e.g. 1
\F=Front
\R=Rear
\V=VHF
\H=HF
\T=Top
\B=Bottom
\1=#1
\2=#2
\3=#3
\4=#4

[Tests]
Info=TestID||Test Name
01=Zero Beat
02=10dB SN
03=12dB SINAD
04=S1
05=S5
06=S9
07=RX 6dB Low
08=RX 6dB High
51=Power High
52=Power Hold
53=Power Medium
54=Power Low
55=Max Spurious
56=2nd Harmonic
57=3rd Harmonic
58=RX 6dB Low
59=RX 6dB High
60=Max deviation
61=Max modulation depth