[SETUP]
ADDRESS=888
CLOCK=8
DATA=4
LE=2
PART=LMK5B12204
IFACE=I2C
ADDRESS_I2C=0x64
INTERFACE_SPEED=400

[PINS]
PINNAME00=REFSEL
LOCATION00=9
PINVALUE00=True
PINNAME01=HW_CTRL
LOCATION01=7
PINVALUE01=False
PINNAME02=PDN
LOCATION02=3
PINVALUE02=True
PINNAME03=GPIO0
LOCATION03=8
PINVALUE03=False
PINNAME04=GPIO1
LOCATION04=6
PINVALUE04=False
PINNAME05=GPIO2
LOCATION05=5
PINVALUE05=False
PINNAME06=Status0
LOCATION06=10
PINVALUE06=False
PINNAME07=Status1
LOCATION07=11
PINVALUE07=False

[MODES]
NAME00=R0
VALUE00=16
NAME01=R1
VALUE01=267
NAME02=R2
VALUE02=565
NAME03=R3
VALUE03=818
NAME04=R4
VALUE04=1028
NAME05=R5
VALUE05=1294
NAME06=R6
VALUE06=1559
NAME07=R7
VALUE07=1934
NAME08=R8
VALUE08=2050
NAME09=R10
VALUE09=2760
NAME10=R11
VALUE10=2816
NAME11=R12
VALUE11=3099
NAME12=R13
VALUE12=3336
NAME13=R14
VALUE13=3584
NAME14=R15
VALUE14=3840
NAME15=R16
VALUE15=4096
NAME16=R17
VALUE16=4381
NAME17=R18
VALUE17=4863
NAME18=R19
VALUE18=4872
NAME19=R20
VALUE19=5152
NAME20=R21
VALUE20=5377
NAME21=R22
VALUE21=5632
NAME22=R23
VALUE22=5973
NAME23=R24
VALUE23=6229
NAME24=R25
VALUE24=6400
NAME25=R26
VALUE25=6656
NAME26=R27
VALUE26=6912
NAME27=R28
VALUE27=7169
NAME28=R29
VALUE28=7443
NAME29=R30
VALUE29=7744
NAME30=R32
VALUE30=8260
NAME31=R35
VALUE31=8960
NAME32=R36
VALUE32=9219
NAME33=R37
VALUE33=9472
NAME34=R38
VALUE34=9728
NAME35=R39
VALUE35=9986
NAME36=R40
VALUE36=10255
NAME37=R41
VALUE37=10496
NAME38=R42
VALUE38=10753
NAME39=R43
VALUE39=11202
NAME40=R44
VALUE40=11264
NAME41=R45
VALUE41=11532
NAME42=R46
VALUE42=11912
NAME43=R47
VALUE43=12039
NAME44=R48
VALUE44=12352
NAME45=R49
VALUE45=12609
NAME46=R50
VALUE46=12836
NAME47=R51
VALUE47=13184
NAME48=R52
VALUE48=13336
NAME49=R53
VALUE49=13623
NAME50=R54
VALUE50=13840
NAME51=R55
VALUE51=14080
NAME52=R56
VALUE52=14435
NAME53=R57
VALUE53=14592
NAME54=R58
VALUE54=14863
NAME55=R59
VALUE55=15292
NAME56=R60
VALUE56=15415
NAME57=R61
VALUE57=15616
NAME58=R62
VALUE58=16121
NAME59=R63
VALUE59=16128
NAME60=R64
VALUE60=16574
NAME61=R65
VALUE61=16828
NAME62=R66
VALUE62=16927
NAME63=R67
VALUE63=17351
NAME64=R68
VALUE64=17416
NAME65=R69
VALUE65=17664
NAME66=R70
VALUE66=17920
NAME67=R71
VALUE67=18176
NAME68=R72
VALUE68=18483
NAME69=R73
VALUE69=18688
NAME70=R74
VALUE70=18944
NAME71=R75
VALUE71=19200
NAME72=R76
VALUE72=19456
NAME73=R77
VALUE73=19727
NAME74=R78
VALUE74=19968
NAME75=R79
VALUE75=20241
NAME76=R80
VALUE76=20608
NAME77=R81
VALUE77=20746
NAME78=R82
VALUE78=20992
NAME79=R83
VALUE79=21253
NAME80=R84
VALUE80=21664
NAME81=R85
VALUE81=21760
NAME82=R86
VALUE82=22016
NAME83=R87
VALUE83=22302
NAME84=R88
VALUE84=22660
NAME85=R89
VALUE85=22912
NAME86=R90
VALUE86=23040
NAME87=R91
VALUE87=23316
NAME88=R92
VALUE88=23552
NAME89=R93
VALUE89=23813
NAME90=R94
VALUE90=24224
NAME91=R95
VALUE91=24320
NAME92=R96
VALUE92=24576
NAME93=R97
VALUE93=24862
NAME94=R98
VALUE94=25220
NAME95=R99
VALUE95=25472
NAME96=R100
VALUE96=25640
NAME97=R101
VALUE97=25857
NAME98=R102
VALUE98=26163
NAME99=R103
VALUE99=26383
NAME100=R104
VALUE100=26655
NAME101=R105
VALUE101=26885
NAME102=R106
VALUE102=27136
NAME103=R107
VALUE103=27492
NAME104=R108
VALUE104=27648
NAME105=R109
VALUE105=28034
NAME106=R110
VALUE106=28213
NAME107=R111
VALUE107=28501
NAME108=R112
VALUE108=28757
NAME109=R113
VALUE109=29013
NAME110=R114
VALUE110=29269
NAME111=R115
VALUE111=29443
NAME112=R116
VALUE112=29697
NAME113=R117
VALUE113=29952
NAME114=R118
VALUE114=30208
NAME115=R119
VALUE115=30464
NAME116=R120
VALUE116=30720
NAME117=R121
VALUE117=30976
NAME118=R122
VALUE118=31232
NAME119=R123
VALUE119=31528
NAME120=R124
VALUE120=31744
NAME121=R125
VALUE121=32017
NAME122=R126
VALUE122=32377
NAME123=R127
VALUE123=32634
NAME124=R128
VALUE124=32768
NAME125=R129
VALUE125=33025
NAME126=R130
VALUE126=33280
NAME127=R131
VALUE127=33537
NAME128=R132
VALUE128=33793
NAME129=R133
VALUE129=34167
NAME130=R134
VALUE130=34304
NAME131=R135
VALUE131=34603
NAME132=R136
VALUE132=34816
NAME133=R137
VALUE133=35205
NAME134=R138
VALUE134=35380
NAME135=R139
VALUE135=35587
NAME136=R140
VALUE136=35842
NAME137=R141
VALUE137=36096
NAME138=R142
VALUE138=36353
NAME139=R143
VALUE139=36609
NAME140=R144
VALUE140=36983
NAME141=R145
VALUE141=37121
NAME142=R146
VALUE142=37513
NAME143=R147
VALUE143=37664
NAME144=R149
VALUE144=38157
NAME145=R150
VALUE145=38400
NAME146=R151
VALUE146=38657
NAME147=R152
VALUE147=38925
NAME148=R153
VALUE148=39209
NAME149=R154
VALUE149=39460
NAME150=R155
VALUE150=39730
NAME151=R156
VALUE151=39937
NAME152=R157
VALUE152=40192
NAME153=R158
VALUE153=40448
NAME154=R159
VALUE154=40704
NAME155=R160
VALUE155=41212
NAME156=R161
VALUE156=41266
NAME157=R162
VALUE157=41472
NAME158=R164
VALUE158=41984
NAME159=R165
VALUE159=42240
NAME160=R167
VALUE160=42753
NAME161=R178
VALUE161=45568
NAME162=R180
VALUE162=46080
NAME163=R181
VALUE163=46336
NAME164=R182
VALUE164=46592
NAME165=R183
VALUE165=46848
NAME166=R184
VALUE166=47104
NAME167=R185
VALUE167=47365
NAME168=R186
VALUE168=47616
NAME169=R187
VALUE169=47872
NAME170=R188
VALUE170=48128
NAME171=R189
VALUE171=48384
NAME172=R190
VALUE172=48640
NAME173=R191
VALUE173=48896
NAME174=R192
VALUE174=49152
NAME175=R193
VALUE175=49432
NAME176=R194
VALUE176=49664
NAME177=R195
VALUE177=49920
NAME178=R196
VALUE178=50176
NAME179=R197
VALUE179=50461
NAME180=R198
VALUE180=50688
NAME181=R199
VALUE181=50944
NAME182=R200
VALUE182=51229
NAME183=R201
VALUE183=51456
NAME184=R202
VALUE184=51712
NAME185=R203
VALUE185=51968
NAME186=R204
VALUE186=52245
NAME187=R205
VALUE187=52480
NAME188=R206
VALUE188=52736
NAME189=R207
VALUE189=53013
NAME190=R208
VALUE190=53248
NAME191=R209
VALUE191=53524
NAME192=R210
VALUE192=53760
NAME193=R211
VALUE193=54038
NAME194=R212
VALUE194=54272
NAME195=R213
VALUE195=54548
NAME196=R214
VALUE196=54784
NAME197=R215
VALUE197=55062
NAME198=R216
VALUE198=55296
NAME199=R217
VALUE199=55552
NAME200=R218
VALUE200=55811
NAME201=R219
VALUE201=56313
NAME202=R220
VALUE202=56385
NAME203=R221
VALUE203=56576
NAME204=R222
VALUE204=56834
NAME205=R223
VALUE205=57096
NAME206=R224
VALUE206=57558
NAME207=R225
VALUE207=57600
NAME208=R226
VALUE208=57859
NAME209=R227
VALUE209=58361
NAME210=R228
VALUE210=58433
NAME211=R229
VALUE211=58624
NAME212=R230
VALUE212=58882
NAME213=R231
VALUE213=59144
NAME214=R232
VALUE214=59606
NAME215=R233
VALUE215=59663
NAME216=R234
VALUE216=59919
NAME217=R235
VALUE217=60161
NAME218=R236
VALUE218=60452
NAME219=R237
VALUE219=60920
NAME220=R238
VALUE220=60928
NAME221=R239
VALUE221=61184
NAME222=R240
VALUE222=61635
NAME223=R241
VALUE223=61776
NAME224=R242
VALUE224=61952
NAME225=R243
VALUE225=62271
NAME226=R244
VALUE226=62464
NAME227=R249
VALUE227=63777
NAME228=R250
VALUE228=64000
NAME229=R251
VALUE229=64259
NAME230=R252
VALUE230=64553
NAME231=R253
VALUE231=64786
NAME232=R254
VALUE232=65030
NAME233=R255
VALUE233=65532
NAME234=R256
VALUE234=65536
NAME235=R257
VALUE235=65793
NAME236=R258
VALUE236=66048
NAME237=R259
VALUE237=66304
NAME238=R260
VALUE238=66562
NAME239=R261
VALUE239=66944
NAME240=R262
VALUE240=67073
NAME241=R263
VALUE241=67370
NAME242=R264
VALUE242=67589
NAME243=R265
VALUE243=68082
NAME244=R266
VALUE244=68096
NAME245=R267
VALUE245=68512
NAME246=R268
VALUE246=68612
NAME247=R269
VALUE247=68864
NAME248=R270
VALUE248=69122
NAME249=R271
VALUE249=69418
NAME250=R272
VALUE250=69632
NAME251=R273
VALUE251=69888
NAME252=R274
VALUE252=70144
NAME253=R275
VALUE253=70425
NAME254=R276
VALUE254=70681
NAME255=R277
VALUE255=70937
NAME256=R278
VALUE256=71168
NAME257=R279
VALUE257=71424
NAME258=R280
VALUE258=71680
NAME259=R281
VALUE259=71936
NAME260=R282
VALUE260=72192
NAME261=R283
VALUE261=72448
NAME262=R284
VALUE262=72734
NAME263=R285
VALUE263=72990
NAME264=R286
VALUE264=73216
NAME265=R287
VALUE265=73472
NAME266=R288
VALUE266=73728
NAME267=R289
VALUE267=73984
NAME268=R290
VALUE268=74241
NAME269=R291
VALUE269=74560
NAME270=R292
VALUE270=74752
NAME271=R293
VALUE271=75009
NAME272=R294
VALUE272=75264
NAME273=R295
VALUE273=75553
NAME274=R296
VALUE274=75778
NAME275=R297
VALUE275=76034
NAME276=R298
VALUE276=76290
NAME277=R299
VALUE277=76545
NAME278=R300
VALUE278=76800
NAME279=R301
VALUE279=77076
NAME280=R302
VALUE280=77335
NAME281=R303
VALUE281=77569
NAME282=R304
VALUE282=77839
NAME283=R305
VALUE283=78084
NAME284=R306
VALUE284=78433
NAME285=R307
VALUE285=78840
NAME286=R308
VALUE286=78915
NAME287=R309
VALUE287=79299
NAME288=R310
VALUE288=79555
NAME289=R311
VALUE289=79811
NAME290=R312
VALUE290=80067
NAME291=R313
VALUE291=80323
NAME292=R314
VALUE292=80639
NAME293=R315
VALUE293=80895
NAME294=R316
VALUE294=81151
NAME295=R317
VALUE295=81407
NAME296=R318
VALUE296=81663
NAME297=R319
VALUE297=81667
NAME298=R320
VALUE298=81920
NAME299=R321
VALUE299=82186
NAME300=R322
VALUE300=82432
NAME301=R323
VALUE301=82688
NAME302=R324
VALUE302=82944
NAME303=R325
VALUE303=83201
NAME304=R326
VALUE304=83462
NAME305=R327
VALUE305=83765
NAME306=R328
VALUE306=84085
NAME307=R329
VALUE307=84235
NAME308=R330
VALUE308=84480
NAME309=R331
VALUE309=84836
NAME310=R332
VALUE310=84992
NAME311=R333
VALUE311=85248
NAME312=R334
VALUE312=85748
NAME313=R335
VALUE313=85796
NAME314=R336
VALUE314=86022
NAME315=R337
VALUE315=86325
NAME316=R338
VALUE316=86645
NAME317=R339
VALUE317=86795
NAME318=R340
VALUE318=87040
NAME319=R341
VALUE319=87296
NAME320=R342
VALUE320=87552
NAME321=R343
VALUE321=87808
NAME322=R344
VALUE322=88064
NAME323=R345
VALUE323=88320
NAME324=R346
VALUE324=88578
NAME325=R347
VALUE325=88832
NAME326=R348
VALUE326=89088
NAME327=R349
VALUE327=89344
NAME328=R350
VALUE328=89600
NAME329=R351
VALUE329=89856
NAME330=R352
VALUE330=90112
NAME331=R357
VALUE331=91432
NAME332=R367
VALUE332=93952
NAME333=R411
VALUE333=105228

[FLEX]
CH0_PREDRIVER=0
CH1_PREDRIVER=0
CH2_PREDRIVER=0
CH3_PREDRIVER=0
CH4_PREDRIVER=0
CH5_PREDRIVER=0
CH6_PREDRIVER=0
CH7_PREDRIVER=0
DPLL_REF_LOOPCTL_CHG_QUANT_INTG=0
DPLL_REF_MASHSEED=0
DPLL_REF_UNLOCKDET_CNTSTRT=0
DPLL_REF_UNLOCKDET_CNTSTRT_MSB_6=0
DPLL_REF_UNLOCKDET_VCO_CNTSTRT=0
DPLL_REF_UNLOCKDET_VCO_CNTSTRT_MSB_22=0
DPLL_ZDM_NDIV_RST_DIS=0
DPLL_ZDM_SYNC_EN=0
MUTE_DPLL_FRLOCK=1
OUT0_freq=27.0 MHz
OUT1_freq=27.0 MHz
OUT2_freq=25.0 MHz
OUT3_freq=25.0 MHz
OUT4_freq=156.25 MHz
OUT5_freq=27.0 MHz
OUT6_freq=10.0 MHz
OUT7_freq=1.0 Hz
PLL1_BAW_CAPDAC=0
PLL1_CP_TRIM=0
PLL1_VCBO_VAR2CON=0
PRIREFBUFGAIN=0
SECREFBUFGAIN=0
TARGET_ADDR_GPIO1_SW=0
VCO1_freq=2500
VCO2_freq=6048
XO_freq=19.2
bFindAddressBtn=Find I2C Addr
i2cAddr=0
sTDC_freq=1.0 Hz
btn_page0_next=NEXT>
combo_backward_compatible=0
combo_dpll_mode=0
matlab_runtime_url=https://www.mathworks.com/products/compiler/matlab-runtime.html
btn_page1_back=<BACK
btn_page1_next=NEXT>
btn_xo_show_instructions=Show Instructions
sXO_freq=19.2e6
s_wizard_XO_message_box=XO frequency set successfully!\n\nInteger boundary spur = 4.0 MHz\n\nXO R divider = 1\nXO doubler is enabled\nPFD frequency = 38.4 MHz
sCH0_1_IN_freq=27e6
sCH0_1_MUX=APLL2
sCH5_IN_freq=27e6
sCH6_IN_freq=10e6
OUT1_FMT=24
OUT5_FMT=60
OUT6_FMT=0
sCH6_MUX=APLL1
sCH5_MUX=APLL2
OUT1_freq=27.0 MHz
OUT5_freq=27.0 MHz
OUT6_freq=10.0 MHz
s_wizard_freqplan_message_box=Frequency plan completed!\n\nSelected frequency plan:\n\nVCO1 frequency = 2500.0 MHz\nVCO2 frequency = 6048.0 MHz\n\nAPLL1 settings:\n\nPFD freq = 19200000 Hz\nN divider = 130\nNumerator = 229064922453\nDenominator = 1099511627776\nPost divider = 1\n\nAPLL2 settings:\n\nAPLL2 reference source is VCO1\nPFD freq = 1250000000/9 Hz\nN divider = 43\nNumerator = 34100\nDenominator = 62500\nPost divider 1 = 4\nPost divider 2 = 4\n\n
OUT2_FMT=16
sCH2_3_IN_freq=25e6
sCH2_3_MUX=APLL1
OUT2_freq=25.0 MHz
cb_allow_PLL2_prescaler_of_2=0
cb_manual_override_pll2_rdiv=0
PLL2_RDIV_PRE=0
PLL2_RDIV_SEC=5
btn_page2_next=NEXT>
btn_page2_back=<BACK
table_frequency_plan_pll1=0
btn_frequency_plan_apply_solution=Apply manually selected solution
table_frequency_plan_pll2=0
btn_freq_plan_show_instructions=Show Instructions
OUT0_FMT=0
OUT0_freq=27.0 MHz
sCH4_IN_freq=
sCH7_IN_freq=
sCH4_MUX=N/A
sCH7_MUX=N/A
OUT3_FMT=0
OUT4_FMT=0
OUT7_FMT=0
OUT3_freq=25.0 MHz
OUT4_freq=156.25 MHz
OUT7_freq=1.0 Hz
bCALC_FREQPLAN=Calculate Frequency Plan
DPLL_SWITCH_MODE=3
combo_ref_priority=0
DPLL_REF_MAN_SEL=0
DPLL_REF_MAN_REG_SEL=0
btn_page3_next=NEXT>
btn_page3_back=<BACK
sPRIREF_freq=1
PRIREF_TYPE=8
sSECREF_freq=
SECREF_TYPE=8
cb_enable_PRIREF=1
cb_enable_SECREF=0
s_wizard_refclk_message_box=INSTRUCTIONS:\n\n1. Enable or disable PRIREF and SECREF as needed. If DPLL is not used, then disable both references and skip this page.\n\n2. Type the frequencies of PRIREF and / or SECREF in Hz. Example frequency formats:\n\n1\n25e6\n100e6 / 3\n\n3. Select interface type. AC or DC buffer is auto-seletected based on reference frequency. If reference frequency is below 5 MHz, then use internal DC buffer. Otherwise, use internal DC or AC buffer. To select interface types for AC buffer, refer to the 'Interface Type Selection Tips' in the XO wizard page. The same can be applied to PRIREF and SECREF.\n\n4. Select the input switching mode. The input switching mode is auto-seletected based on the states of PRIREF and SECREF enable. When both references are enabled, then Auto non-revertive is selected. If only one reference is enabled, then manual holdover is selected. However, it is highly recommended to read through the 'Input Switching Mode Selection Guide' in this wizard page and make the decision.\n\n5. If manual fallback or manual holdover is selected, then choose between manually select by register and manually select by REFSEL pin.
btn_refclk_show_instructions=Show Instructions
combo_PRIREF_BUF_TYPE=2
combo_SECREF_BUF_TYPE=2
btn_page4_next=NEXT>
btn_page4_back=<BACK
bRUN_SCRIPT=Run Script
sMAX_TDC_freq=26000000.0
sDPLL_LBW=0.1
sDPLL_LBW_ACT=0.0993
sDPLL_PEAK=0.1
s_wizard_dpll_message_box=DPLL calculation completed!\n\nTDC frequency = 1.0 Hz\n\nPlanned VCO1 frequency = 2.5 GHz\nActual VCO1 frequency = 2.5 GHz\nPLL1 frequency error = 0 ppb\n\nPlanned VCO2 frequency = 6.048 GHz\nActual VCO2 frequency = 6.048 GHz\nPLL2 frequency error = 0 ppb\n\n
combo_set_max_tdc_freq=0
btn_dpll_show_instructions=Show Instructions
sDPLL_PEAK_ERROR=1
sTDC_freq=1.0 Hz
DPLL_REF_FB_PRE_DIV=15
sSECREF_freq_display=Disabled
sPRIREF_freq_display=1.0 Hz
DPLL_REF_FB_DIV=73529411
DPLL_REF_DEN=1099511627775
DPLL_SECREF_RDIV=0
DPLL_PRIREF_RDIV=1
DPLL_VCO_freq=2500.0
DPLL_REF_NUM=840803009475
combo_disable_fastlock=1
combo_switching_method=0
sPRIREF_PPM_VALID=100
sSECREF_PPM_VALID=100
sSECREF_PPM_INVALID=110
sPRIREF_PPM_INVALID=110
sSECREF_PPM_TIMER=n/a
sPRIREF_PPM_TIMER=n/a
sSECREF_LATE=0
sPRIREF_LATE=0
SECREFVLDTMR=15
PRIREFVLDTMR=15
PRIREF_PPM_EN=0
SECREF_PPM_EN=0
PRIREF_MISSCLK_EN=0
SECREF_MISSCLK_EN=0
PRIREF_VALTMR_EN=1
SECREF_VALTMR_EN=0
sSECREF_EARLY_MARGIN=1
sPRIREF_EARLY_MARGIN=1
PRIREF_EARLY_DET_EN=0
SECREF_EARLY_DET_EN=0
sSECREF_EARLY_calc=n/a
sPRIREF_EARLY_calc=n/a
PRIREF_PH_VALID_EN=1
SECREF_PH_VALID_EN=0
SECREF_PH_VALID_THR=0
PRIREF_PH_VALID_THR=63
sSECREF_PH_VALID_calc=n/a
sPRIREF_PH_VALID_calc=3.28 us
PRIREF_AMPDET_EN=0
SECREF_AMPDET_EN=0
sSECREF_ACCURACY_PPM=10
sPRIREF_ACCURACY_PPM=10
sSECREF_LATE_calc=n/a
sPRIREF_LATE_calc=n/a
PRIREF_LVL_SEL=0
DETECT_MODE_PRIREF=0
SECREF_LVL_SEL=0
DETECT_MODE_SECREF=0
sSECREF_LATE_MARGIN=1
sPRIREF_LATE_MARGIN=1
PRIREF_CMOS_SLEW=1
SECREF_CMOS_SLEW=1
btn_page5_next=NEXT>
btn_page5_back=<BACK
s_wizard_reference_validation_message_box=INSTRUCTIONS:\n\nIf DPLL is disabled, then skip this page. All reference validation methods have been enabled or disabled automatically based on reference frequency and interface type. However, it is highly recommended to read through the instructions and loose or tighten the thresholds according to application needs.\n\nFrequency detection and early / late window detection are only valid for reference frequencies >= 2 kHz. 1PPS phase detector is only valid for reference frequencies < 2 kHz. For 1PPS input, only enable the 1PPS phase detector and disable all other detectors.\n\n1. Validation timer. The reference must stay valid for 'validation timer' amount of time before it's considered valid. It is recommended to set the validation timer to more than twice of the total reference validation measurement time. The frequency detection measurement time is displayed on the wizard. Measurement time of amplitude detection, early / late clock detection as well as 1PPS phase detection is roughly one cycle of reference clock. Therefore, if the reference frequency is >= 2 kHz, total measurement time is approximately the frequency detection measurement time. If the reference frequency is < 2 kHz, total measuremnet time is approximately 1 cycle of reference clock.\n\n2. Amplitude detector. There are two modes: amplitude detector mode and CMOS slew rate detector mode. In amplitude detector mode, the reference is considered valid if the signal swing is higher than the selected threshold. In CMOS slew rate detector mode, the detection method can be either slew rate detection or VIH / VIL detection. For slew rate detection, the input slew rate must be faster than 0.2 V/ns. For VIH / VIL detection, the input high level must be above 1.8 V and the low level must be below 0.6 V. The amplitude detection mode cannot be used for reference frequencies less than 5 MHz. If the reference frequency is above 5 MHz, then amplitude detection mode is recommended for differential input and the CMOS slew rate detection mode is recommended for single-ended input. If the input swing is too low (for example, the LVDS voltage swing is 400 mV, very marginal compared to the mininum threshold of amplitude detection mode), then amplitude detector can be disabled.\n\n3. Frequency detector. This detector is only valid for PRIREF / SECREF frequencies >= 2 kHz. Frequency detection needs 4 parameters: valid threshold in ppm, invalid threshold in ppm, accuracy in ppm and average count. The PRIREF or SECREF is considered valid if the frequency error between PRIREF / SECREF and XO is within the valid threshold. While it's frequency valid, it's considered as frequency invalid if the frequency error exceeds the invalid threshold. The accuracy in ppm indicates how accurate the valid and invalid threshold can be. In other words, this is the resolution of valid and invalid threshold counters. The minimum average count is 2. Keep it as 2 unless the reference clock has too much wander and the DPLL loop bandwidth is too narrow. In that case, raise the average count to no more than 10. As mentioned, the '0-error' reference for frequency detection is the XO. In reality, of course, the XO frequency is not '0-error'. Therefore, the valid and invalid thresholds must take the XO ppm error into account. The minimum valid threshold should be max XO frequency error + max PRIREF / SECREF frequency error + accuracy in ppm. The minimum invalid threshold should be valid threshold + accuracy in ppm.\n\n4. Early and late clock window detector. This detector is only valid for PRIREF / SECREF frequencies >= 2 kHz. 3 parameters are needed: early counter, late counter and number of missing clocks. After setting early and late counters, the T_early and T_late are calculated accordingly. As shown in the timing diagram, the PRIREF / SECREF is considered valid if its next clock edge falls within ideal next edge - T_early and ideal next edge + T_late. Setting the number of missing clocks to x is equivalent to adding x * reference_clock_period to T_late. So the number of missing clocks is typically set to 0 unless gapped clock needs to be supported. The early and late clock detector uses divided down BAW VCO frequency as its '0-error' reference. However, since this is a very coarse detection method (resolution of T_early and T_late counter is roughly 1.6 ns), the ppm error of the BAW VCO itself is not of concern.\n\n5. 1PPS phase detector. This detector is only valid for PRIREF / SECREF frequencies < 2 kHz. T_jitter is auto-calculated according to the phase detector counter. As shown in the timing diagram, the PRIREF / SECREF is considered valid if the next clock edge falls within ideal next edge - T_jitter and ideal next edge + T_jitter. Note that the '0-error' clock reference for 1PPS phase detector is the XO, so T_jitter must be greater than the sum of: (1) XO phase error accumulated through one PRIREF / SECREF clock period (for example, 1 second for 1PPS input). This includes the phase error caused by frequency inaccuracy, accumulated jitter as well as wander. (2) The max period jitter of PRIREF / SECREF. Therefore, low frequency and high stability XO is recommended for 1PPS input. This is because for XOs with the same frequency stability, the one with the lower frequency accumulates less phase error over fixed period of time. 12.8 MHz TCXO / OCXO is recommended for 1PPS input.
btn_ref_validation_show_instructions=Show Instructions
sPRIREF_AVG_COUNT=2
sSECREF_AVG_COUNT=2
btn_page6_next=NEXT>
btn_page6_back=<BACK
s_wizard_dpll2_message_box=INSTRUCTIONS:\n\nAll lock detect settings are set to either default or recommended values after the DPLL script is run. Still, it is highly recommended to go through the instructions and make the adjustments.\n\n1. BAW frequency lock detect. BAW_LOCK detector indicates if APLL1 (BAW VCO or VCBO) has locked to the XO input. This detector is not useful when the DPLL is locked because the VCBO tracks the xxxREF input in this state instead of the XO input. Enter lock threshold in ppm, unlock threshold in ppm, average count (min value = 2) and accuracy in ppm. The VCBO is considered to be locked if the frequency error between the BAW and the XO is within lock threshold. Once the BAW is locked, it's considered to be unlocked if the frequency error exceeds the unlock threshold. The step size of lock and unlock threshold in ppm = accuracy / average. If there's no specific requirement for BAW lock detect, click 'Set Default'.\n\n2. DPLL frequency lock detect. Enter lock and unlock thresholds in ppm, average count (min value = 2) as well as accuracy in ppm. The DPLL is considered to be frequency locked if the frequency error between the VCO1 and the references is within the lock threshold. While the DPLL is frequency locked, it's considered to be frequency unlocked if the frequency error exceeds the unlock threshold. The step size of lock and unlock threshold =  accuracy / average. If there's no specific requirement for DPLL frequency lock detect, click 'Set Default'.\n\n3. DPLL phase lock detect. Set lock and unlock threshold counters. The actual lock and unlock thresholds in second are then calculated accordingly. The DPLL is considered as phase locked if the phase difference between the two inputs of TDC (divided reference and divided VCO1) is within the lock threshold. While the DPLL is phase locked, it's considered as phase unlocked if the phase difference exceeds the unlock threshold. Use recommended values for this. The lock and unlock counters should not be manually set, and they are only used for engineering debugging purposes.\n\n4. Tuning word history. This block sets the tuning word history for holdover. Set history counter and delay counter. The averaging time and delay time are then auto-calculated. Refer to datasheet section '9.3.7.4 Tuning Word History' for details. If there's no specific requirement for holdover tuning word, click 'Min Values Required'. This makes sure that the delay time is more than 8 times of the reference frequency validation measurement time, and that the averaging time is longer than the delay time.
BAW_LOCK_PPM_THRESH=5.0
BAW_UNLK_PPM_THRESH=10.0
BAW_LOCKDET_EN=1
sBAW_LOCK_AVG=2
sBAW_TMEAS_LOCK_calc=19.2000 ms
sBAW_LOCK_ACCURACY_PPM=1
DPLL_PL_LOCK_THRESH=20
DPLL_PL_UNLK_THRESH=23
DPLL_PL_LOCK_calc=2.96 ns
DPLL_PL_UNLK_calc=23.66 ns
btn_ph_threshold_recommend=Recommended
sDPLL_PL_MEAS_TIME=10.07 s
btn_history_recommend=Min Values Required
sDPLL_LOCK_PPM=1.0
sDPLL_UNLK_PPM=10.0
sDPLL_LOCK_AVG=10
sDPLL_TMEAS_LOCK_calc=1.0 s
sDPLL_LOCK_ACCURACY_PPM=1
DPLL_REF_HISTCNT=0
DPLL_REF_HISTDLY=0
sDPLL_HISTCNT_calc=1.02 ks
sDPLL_HISTDLY_calc=1.02 ks
DPLL_REF_HIST_INTMD=0
DPLL_REF_HIST_EN=1
DPLL_LOCKDET_PPM_EN=1
btn_dpll2_show_instructions=Show Instructions
btn_baw_lock_detect_default=Set Default
btn_dpll_freq_lock_detect_default=Set Default
DPLL_TUNING_FREE_RUN=0
btn_page7_back=<BACK
PLL1_24b_DEN=5592405
PLL1_24b_NUM=734549
PLL1_DEN=1099511627776
PLL1_PFD_freq=19.2
VCO1_freq=2500
XO_freq=19.2
PLL2_DEN_fixed=16777216
PLL2_PFD_freq=138.8888888889
VCO1_freq=2500
VCO2_freq=6048
XO_freq=19.2
MUTE_DPLL_FRLOCK=1
OUT0_freq=27.0 MHz
OUT1_freq=27.0 MHz
OUT2_freq=25.0 MHz
OUT3_freq=25.0 MHz
OUT4_freq=156.25 MHz
OUT5_freq=27.0 MHz
OUT6_freq=10.0 MHz
OUT7_freq=1.0 Hz
PLL2PDIV1_freq=1512
PLL2PDIV2_freq=1512
VCO1_freq=2500
VCO2_freq=6048
sOUT7_DIV=2500000000
sDPLL_DCO_STEP=0.01
DPLL_DCO_STEP_ACT=0
bDPLL_FINCR=Increment
bDPLL_FDECR=Decrement
DPLL_FDEV=0
DPLL_FDEV_EN=0
cbDCO_MODE=1
DPLL_REF_NUM=840803009475
AbsDCO_ppb_error=0.01
bResetNumerator0ppb=Reload Original DPLL Numerator
DPLL_REF_NUM_calculated=840803009475
GPIO_FDEV_EN=0
DPLL_DCO_FREQ_PPB_ACT=0
bReadStatus=Read Status
bClearAllFlagStickyStatus=Clear All Flags
txtNVMSCRC=0x32
txtNVMCNT=0x01
txtNVMLCRC=0x00
txtNVMCRCERR=0
txtNVMBUSY=0
txtEEREV=50
txtNVM_SPARE_BY1=50
txtNVM_SPARE_BY0=50
txtNVM_SPARE_BY2=50
txtNVM_SPARE_BY3=50
txtI2C_ADDR=0x19+GPIO1
chkSEL_EXTRA_EE_BYTES=0
valEEREV=0
valNVM_SPARE_BY1=0
valNVM_SPARE_BY0=0
valNVM_SPARE_BY2=0
valNVM_SPARE_BY3=0
cmbI2C_ADDR=25
val_EE_DUMP=# Generated: Thu Mar 12 16:58:47 2026\n# Register Commit EEPROM Programming Sequence\n\n# Write registers containing fields in the EEPROM\nR12	0x000C1B	\nR15	0x000F00	\nR16	0x001000	\nR17	0x00111D	\nR18	0x0012FF	\nR21	0x001501	\nR22	0x001600	\nR23	0x001755	\nR24	0x001855	\nR25	0x001900	\nR26	0x001A00	\nR27	0x001B00	\nR28	0x001C01	\nR29	0x001D13	\nR30	0x001E40	\nR32	0x002044	\nR35	0x002300	\nR36	0x002403	\nR37	0x002500	\nR38	0x002600	\nR39	0x002702	\nR40	0x00280F	\nR41	0x002900	\nR42	0x002A01	\nR43	0x002BC2	\nR44	0x002C00	\nR45	0x002D0C	\nR46	0x002E88	\nR47	0x002F07	\nR48	0x003040	\nR49	0x003141	\nR50	0x003224	\nR51	0x003380	\nR52	0x003418	\nR53	0x003537	\nR54	0x003610	\nR55	0x003700	\nR56	0x003863	\nR57	0x003980	\nR58	0x003A43	\nR59	0x003BBC	\nR60	0x003C37	\nR61	0x003D00	\nR62	0x003EF9	\nR63	0x003F00	\nR64	0x004000	\nR65	0x004100	\nR66	0x004200	\nR67	0x0043F9	\nR68	0x004408	\nR69	0x004500	\nR70	0x004600	\nR71	0x004700	\nR73	0x004900	\nR74	0x004A00	\nR75	0x004B00	\nR76	0x004C00	\nR77	0x004D0F	\nR78	0x004E00	\nR79	0x004F11	\nR80	0x005080	\nR81	0x00510A	\nR82	0x005200	\nR83	0x005305	\nR84	0x0054A0	\nR85	0x005500	\nR86	0x005600	\nR87	0x00571E	\nR88	0x005884	\nR89	0x005980	\nR90	0x005A00	\nR91	0x005B14	\nR92	0x005C00	\nR93	0x005D05	\nR94	0x005EA0	\nR95	0x005F00	\nR96	0x006000	\nR97	0x00611E	\nR98	0x006284	\nR99	0x006380	\nR100	0x006428	\nR101	0x006501	\nR102	0x006633	\nR103	0x00670F	\nR104	0x00681F	\nR105	0x006905	\nR106	0x006A00	\nR107	0x006B64	\nR108	0x006C00	\nR109	0x006D82	\nR110	0x006E35	\nR111	0x006F55	\nR112	0x007055	\nR113	0x007155	\nR114	0x007255	\nR115	0x007303	\nR116	0x007401	\nR117	0x007500	\nR118	0x007600	\nR119	0x007700	\nR120	0x007800	\nR121	0x007900	\nR129	0x008101	\nR130	0x008200	\nR131	0x008301	\nR132	0x008401	\nR133	0x008577	\nR134	0x008600	\nR135	0x00872B	\nR136	0x008800	\nR137	0x008985	\nR138	0x008A34	\nR139	0x008B03	\nR140	0x008C02	\nR141	0x008D00	\nR142	0x008E01	\nR143	0x008F01	\nR144	0x009077	\nR145	0x009101	\nR146	0x009289	\nR147	0x009320	\nR149	0x00950D	\nR150	0x009600	\nR151	0x009701	\nR152	0x00980D	\nR153	0x009929	\nR154	0x009A24	\nR180	0x00B400	\nR181	0x00B500	\nR182	0x00B600	\nR183	0x00B700	\nR184	0x00B800	\nR185	0x00B905	\nR186	0x00BA08	\nR187	0x00BB00	\nR188	0x00BC00	\nR189	0x00BD00	\nR190	0x00BE2C	\nR191	0x00BF00	\nR192	0x00C0F0	\nR193	0x00C119	\nR194	0x00C219	\nR195	0x00C300	\nR196	0x00C400	\nR197	0x00C51D	\nR198	0x00C600	\nR199	0x00C700	\nR200	0x00C81D	\nR201	0x00C900	\nR202	0x00CA00	\nR203	0x00CB00	\nR204	0x00CC15	\nR205	0x00CD00	\nR206	0x00CE00	\nR207	0x00CF15	\nR208	0x00D000	\nR209	0x00D114	\nR210	0x00D200	\nR211	0x00D316	\nR212	0x00D400	\nR213	0x00D514	\nR214	0x00D600	\nR215	0x00D716	\nR216	0x00D800	\nR217	0x00D900	\nR218	0x00DA00	\nR219	0x00DB19	\nR220	0x00DC6E	\nR221	0x00DD00	\nR222	0x00DE03	\nR223	0x00DF0D	\nR224	0x00E047	\nR225	0x00E100	\nR226	0x00E200	\nR227	0x00E319	\nR228	0x00E46E	\nR229	0x00E500	\nR230	0x00E603	\nR231	0x00E70D	\nR232	0x00E847	\nR233	0x00E910	\nR234	0x00EA10	\nR235	0x00EB00	\nR236	0x00EC1D	\nR237	0x00ED4C	\nR238	0x00EE00	\nR239	0x00EF00	\nR240	0x00F01D	\nR241	0x00F14C	\nR242	0x00F200	\nR243	0x00F33F	\nR244	0x00F43F	\nR249	0x00F921	\nR250	0x00FA00	\nR251	0x00FB03	\nR252	0x00FC2D	\nR253	0x00FD00	\nR254	0x00FE00	\nR255	0x00FF00	\nR256	0x010000	\nR257	0x010101	\nR258	0x010200	\nR259	0x010301	\nR260	0x010402	\nR261	0x010580	\nR262	0x010600	\nR263	0x01071D	\nR264	0x0108CD	\nR265	0x010965	\nR266	0x010A00	\nR267	0x010BA0	\nR268	0x010C04	\nR269	0x010D00	\nR270	0x010E02	\nR271	0x010F28	\nR272	0x01101F	\nR273	0x01111F	\nR274	0x01121F	\nR275	0x011316	\nR276	0x011416	\nR277	0x011516	\nR278	0x011600	\nR279	0x011700	\nR280	0x011800	\nR281	0x011900	\nR282	0x011A00	\nR283	0x011B00	\nR284	0x011C1E	\nR285	0x011D1E	\nR286	0x011E00	\nR287	0x011F00	\nR288	0x012000	\nR289	0x012100	\nR290	0x012203	\nR291	0x012322	\nR292	0x012401	\nR293	0x012501	\nR294	0x012600	\nR295	0x012724	\nR296	0x012806	\nR297	0x012906	\nR298	0x012A06	\nR299	0x012B01	\nR300	0x012C00	\nR301	0x012D14	\nR302	0x012E1B	\nR303	0x012F01	\nR304	0x01300F	\nR305	0x013100	\nR306	0x013270	\nR307	0x013332	\nR308	0x01346D	\nR309	0x01352D	\nR310	0x01362D	\nR311	0x01372D	\nR312	0x01382D	\nR313	0x01392D	\nR314	0x013AFF	\nR315	0x013BFF	\nR316	0x013CFF	\nR317	0x013DFF	\nR318	0x013EFF	\nR319	0x013F03	\nR320	0x014000	\nR321	0x01410A	\nR322	0x014200	\nR323	0x014300	\nR324	0x014400	\nR325	0x014501	\nR326	0x014600	\nR327	0x01479E	\nR328	0x0148F2	\nR329	0x01491B	\nR330	0x014A00	\nR331	0x014B64	\nR332	0x014C00	\nR333	0x014D00	\nR334	0x014EF4	\nR335	0x014F24	\nR336	0x015000	\nR337	0x01519E	\nR338	0x0152F2	\nR339	0x01531B	\nR340	0x015400	\nR341	0x015500	\nR342	0x015600	\nR343	0x015700	\nR344	0x015800	\nR345	0x015900	\nR346	0x015A02	\nR347	0x015B00	\nR348	0x015C00	\nR349	0x015D00	\nR350	0x015E00	\nR351	0x015F00	\n\n# Begin EEPROM programming sequence\n# Commit registers to SRAM (REGCOMMIT), self clearing\nR157	0x009D40\n\n# Unlock EEPROM (NVMUNLK)\nR164	0x00A4EA\n\n# No I2C bus interruptions allowed in between prior and next steps.\n\n# Erase EEPROM (NVMERASE) and initiate EEPROM programming (NVMPROG), self clearing\nR157	0x009D03\n\n# Wait for EEPROM programming to finish by polling NVMBUSY or use an open-loop delay of ~500 ms before powering down or locking EEPROM.\n# Poll NVMBUSY, R157[2]\n\n# Lock EEPROM (NVMUNLK)\nR180	0x00A400\n\n# EEPROM settings take effect at next power-cycle
btnEE_READSTATUS=Read EEPROM Status
btnEE_TICS2SEQ=Export EEPROM Instructions
btnEE_TICS2EPR=Export EEPROM Map
btnEE_TICS2DUT=Program EEPROM
btnEE_DUT2TICS=Read Select EEPROM Bytes