nck Research, LLC (2013,14) BeScope - Digital Oscilloscope for BeMicro CV Developement Kit

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Transkript:

nk Research, LL (0,) - igital Oscilloscope for emicro V evelopement Kit Page System iagram Power & Headers nalog-to-igital onverter Oscilloscope hannel Oscilloscope hannel OS - Page OS - Page OS - Page OS - Page OS - Page OS - Page

nk Research, LL (0,) - igital Oscilloscope for emicro V evelopement Kit N onnector N onnector Input Scope Impedance Matching (MOhm) Input Scope Impedance Matching (MOhm) : ttenuation (Wide-Scale ccomodation) : ttenuation (Wide-Scale ccomodation) igital Programmable Gain Stage ( steps) igital Programmable Gain Stage ( steps) i-polar Single-Ended to i-polar ifferential mplifier (Unity) i-polar Single-Ended to i-polar ifferential mplifier (Unity) nalog evices Two-h. 0MSPS ifferential nalog- To- igital onverter ata - LVS LK - LVS SPI (Translated) rrow / ltera emicro V evelopment oard PG Switch TL / MP Power-own ontrol.0v.v.v/.v -.0V Power Regulation Filtering.0V.V -.0V_.V nk Research/rrow - Size ocument Number Rev.0 G Friday, June, 0 ate: Sheet of

O O- 0 0-0 - - - - - - - - - - 0- - - - - O- O H_IN H_IN H_EN H_EN H_IN H_IN H_IN H_IN H_EN H_IN H_IN H_IN H_IN H_IN H_IN H_EN VP0 P0V PV P0V P0V P0V VP PV P0V P0V P0V PV PV PV P0V PV PV P0V -P0V -P0V_ - - - - - - - 0 0- O O- _OEn _SLK _Sn _SIO H_PG_IN H_PG_IN _SOn H_PG_IN H_PX_Pn H_X_Pn H_PX_Pn H_PG_IN H_PG_IN H_PG_IN H_PX_Pn H_PX_Pn H_X_Pn MON_FS MON_EN Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 VP0 - iode Rectified (iodes Inc - 0) ~0.V-->0.V Voltage rop Expected) U NLOG/M0RZ U NLOG/M0RZ F P GN P- V S LV uf V 0% 0 uf V 0% 0 0uF V 0% 0uF V 0% U NLOG/P0RZ-.-R U NLOG/P0RZ-.-R V SENSE/J GN N EN/UVLO GN PG VIN EGN 0.0uF V 0% 00 0.0uF V 0% 00 U NLOG/P0RZ-.-R U NLOG/P0RZ-.-R V SENSE/J GN N EN/UVLO GN PG VIN EGN 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00.0uF 0V 0% 00.0uF 0V 0% 00 J TE_ONN/- J TE_ONN/- V - I GN M M M M M M M M M M M M uf V 0% 0 uf V 0% 0 J TE_ONN/-0-0 J TE_ONN/-0-0 0 0 0 0 00 uf 0V 0% 00 00 uf 0V 0% 00 IOES_IN/0--F IOES_IN/0--F R K /W % 00 R K /W % 00 0 uf V 0% 0 0 uf V 0% 0 0.uF V 0% 00 0.uF V 0% 00 F TK/MPZ0S F TK/MPZ0S R /W % 00 R /W % 00 J TE_ONN/-0-0 J TE_ONN/-0-0 0 0 0 0 F0 TK/MPZ0S F0 TK/MPZ0S R /W % 00 R /W % 00 0.uF V 0% 00 0.uF V 0% 00 uf V 0% 0 uf V 0% 0 R K /W % 00 R K /W % 00 0 0.uF V 0% 00 0 0.uF V 0% 00 U FIRHIL/FXM0 U FIRHIL/FXM0 V 0 GN 0 OE 0 V 0 0 0.0uF V 0% 00 0 0.0uF V 0% 00 0uF V 0% 0uF V 0% R K /W % 00 R K /W % 00 F TK/MPZ0S F TK/MPZ0S U0 FIRHIL/FXM0 U0 FIRHIL/FXM0 V 0 GN 0 OE 0 V 0 0 0.uF V 0% 00 0 0.uF V 0% 00 uf V 0% 0 uf V 0% 0 uf V 0% 0 uf V 0% 0 0.0uF V 0% 00 0.0uF V 0% 00 uf V 0% 0 uf V 0% 0 R /W % 00 R /W % 00 R 0.0 /W % 00 R 0.0 /W % 00 R K /W % 00 R K /W % 00 0.uF V 0% 00 0.uF V 0% 00 0 0.uF V 0% 00 0 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 R K /W % 00 R K /W % 00 0uF V 0% 0uF V 0% F TK/MPZ0S F TK/MPZ0S F TK/MPZ0S F TK/MPZ0S uf V 0% 0 uf V 0% 0 U NLOG/M0RZ U NLOG/M0RZ F P GN P- V S LV 0 0.0uF V 0% 00 0 0.0uF V 0% 00 uf V 0% 0 uf V 0% 0 F0 F0 uf V 0% 0 uf V 0% 0 uf V 0% 0 uf V 0% 0 0.uF V 0% 00 0.uF V 0% 00 0uF V 0% 0uF V 0% U NLOG/PKZ-.R U NLOG/PKZ-.R GN IN T 0 0.uF V 0% 00 0 0.uF V 0% 00 uf 0V 0% 00 uf 0V 0% 00 0.uF V 0% 00 0.uF V 0% 00 F TK/MPZ0S F TK/MPZ0S F TK/MPZ0S F TK/MPZ0S 0.0uF V 0% 00 0.0uF V 0% 00 R K /W % 00 R K /W % 00 0.uF V 0% 00 0.uF V 0% 00 R K /W % 00 R K /W % 00 uf V 0% 0 uf V 0% 0 F TK/MPZ0S F TK/MPZ0S 0 0.0uF V 0% 00 0 0.0uF V 0% 00 R0 K /W % 00 R0 K /W % 00

OS_LK- OS_LK OS_LK OS_LK- _OEn _S _SLK _SIO PV PV VP PV PV PV PV PV PV _VIN _V _VIN _V _VM O O- - - - - - - - 0 0- MON_FS _SLK _SOn _SIO _Sn _OEn MON_EN Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 Size ocument Number Rev ate: Sheet of.0 G nk Research/rrow - Friday, June, 0 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.0uF V 0% 00 0.0uF V 0% 00 Q FIRHIL/FNN Q FIRHIL/FNN TP TP R K /W % 00 R K /W % 00 0.uF V 0% 00 0.uF V 0% 00 TP TP 0.uF V 0% 00 0.uF V 0% 00 J TE_ONN/-- J TE_ONN/-- R K /W % 00 R K /W % 00 0.uF V 0% 00 0.uF V 0% 00 U NLOG/R0RTZ-R U NLOG/R0RTZ-R V V- TRIM/N R0 /W % 00 R0 /W % 00 F TK/MPZ0S F TK/MPZ0S R K /W % 00 R K /W % 00 R 0.0K /W % 00 R 0.0K /W % 00 0.0uF V 0% 00 0.0uF V 0% 00.0uF 0V 0% 00.0uF 0V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 U NLOG/PZ-00 U NLOG/PZ-00 V V UXLK UXLK- RIS UXLKEN RGN RV 0-0 0 - - - O- O - 0 - - - RV RGN OE SLK 0 SIO/PWN S LK- LK V V V V VIN V 0 VM V V VREF V VIN V V EGN R 0.0 /W % 00 R 0.0 /W % 00 U NLOG/PPZ-R U NLOG/PPZ-R V V GN EN VIN VIN EP U SIT/SIT0---.00000 U SIT/SIT0---.00000 FS GN LK V 0.0uF V 0% 00 0.0uF V 0% 00 R K /W % 00 R K /W % 00 0 0.uF V 0% 00 0 0.uF V 0% 00 U SIT/SIT-F-E0.00000 U SIT/SIT-F-E0.00000 E/ N GN V R0 /W % 00 R0 /W % 00 R K /W % 00 R K /W % 00 R 0 /W % 00 R 0 /W % 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 R 00 /W % 00 R 00 /W % 00 0.uF V 0% 00 0.uF V 0% 00 R 0.0 /W % 00 R 0.0 /W % 00 0.uF V 0% 00 0.uF V 0% 00 V 0% 0 V 0% 0 0.0uF V 0% 00 0.0uF V 0% 00 0.uF V 0% 00 0.uF V 0% 00 R K /W % 00 R K /W % 00 R 0.0 /W % 00 R 0.0 /W % 00 0.uF V 0% 00 0.uF V 0% 00 R0 K /W % 00 R0 K /W % 00 R /W % 00 R /W % 00

P0V F TK/MPZ0S J TE_ONN/- SH R pf.k 00 /W 0% 0V % 00 -P0V 0.uF 00 0% V H_SOURE.pF-0pF Variable (0->deg) Target: pf Optimal 0 R.pF K 00 0 R /W 0% MURT/TZP000R00 K 0V % /W 00 % 00 H_X_Pn R0 00 H_IV /W 0% 0V % 00 R F 00 TK/MPZ0S /W % 00 0.uF 00 0.0uF 0% 00 V 0% V R K /W % 00 H_PX_Pn 0.uF 00 0% V pf 0V 0% 00 R0 00 /W % 00 U NLOG/-PZ-R VS F P IN N HS 0 pf 0V 0% 00 R 00 /W % 00 U NLOG/-PZ-R VS F P IN N HS R 0 /W % 00 H_GINX Three Fixed Gain Stages with ommon nalog Signal Input R 0 /W % 00 H_GIX R0, R = 00 Ohm GIN =, FULL RNGE (: MOhm Probe)= /-V,.mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (: MOhm Probe)= /-.V,.mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (: MOhm Probe)= /-.V,.mV/LS Resolution R0, R = 00 Ohm GIN =, FULL RNGE (0: MOhm Probe)= /-0V,.0mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (0: MOhm Probe)= /-.V,.mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (0: MOhm Probe)= /-V,.mV/LS Resolution P0V F TK/MPZ0S U NLOG/GYRUZ H_PSIG_P0V V 0.uF 00 S H_PG_IN 0% IN H_GIX V S IN S H_PG_IN IN 0 H_GINX R H_SWITH S H_PG_IN IN H_GIX 0 /W GN % VSS N 00 F TK/MPZ0S 0.uF -P0V 00 nalog Input Signals to nalog Output Signal 0% V 0.uF 00 0% V 0.0uF 00 0% V R 0 /W % 00 pf 0V 0% 00 R H_PX_Pn 0.uF 00 0% V R K /W % 00 00 /W % 00 U NLOG/-PZ-R VS F P IN N HS R 0 /W % 00 H_GIX P0V F TK/MPZ0S Single-Ended to ifferential mplifier : Unity Gain (/-.Vpp) Input Range -P0V 0.uF 00 0% V H_PSIG_P0V 0.uF 00 0% V F TK/MPZ0S 0.uF 00 0% V 0.0uF 00 0% V H_SWITH R 0 /W % 00 HS U NLOG/-PZ-R VS F P IN N HS Unity Gain uffer H_SIGNL R. /W % 00 0.uF 00 0% V R. /W % 00 0.uF 00 0% V R 00 /W % 00 0.0uF 00 0% V R /W % 00 0.0uF 00 0% V R /W % 00 R /W % 00 U NLOG/-YPZ-R VS VS VOM VS VS F- 0 IN - P F R /W % 00 R /W % 00 _VM 0.uF 00 0% V L nh 00 0pF % pf 0V 0V 0% 0% 00 L 00 nh 00 % nk Research/rrow - _VIN _V Size ocument Number Rev.0 G Friday, June, 0 ate: Sheet of

P0V F TK/MPZ0S R, R = 00 Ohm GIN =, FULL RNGE (: MOhm Probe)= /-V,.mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (: MOhm Probe)= /-.V,.mV/LS Resolution 0 R, R = 00,0 Ohm GIN =., FULL RNGE (: MOhm Probe)= /-.V,.mV/LS Resolution 0.uF 00 0% V pf 0V 0% 00 R, R = 00 Ohm GIN =, FULL RNGE (0: MOhm Probe)= /-0V,.0mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (0: MOhm Probe)= /-.V,.mV/LS Resolution R, R = 00,0 Ohm GIN =., FULL RNGE (0: MOhm Probe)= /-V,.mV/LS Resolution J TE_ONN/- R pf.k 00 /W 0% 0V % SH 00 F TK/MPZ0S -P0V_ R K /W % 00 R /W % 00 H_SOURE.pF-0pF Variable (0->deg) Target: pf Optimal.pF 00 0 0% MURT/TZP000R00 0V R K /W % H_X_Pn 00 00 H_IV 0% 0V R 00 /W % 00 0.uF 00 0.0uF 0% 00 V 0% V R 00 /W % 00 U NLOG/-PZ-R VS F P IN N HS 0 pf 0V 0% 00 R R0 0 /W % 00 H_GINX Three Fixed Gain Stages with ommon nalog Signal Input H_PSIG_P0V H_PG_IN H_PG_IN H_PG_IN F TK/MPZ0S -P0V_ 0.uF 00 0% V U NLOG/GYRUZ V S IN S IN S IN 0 S IN GN VSS N H_GIX H_GINX H_GIX R 0 /W % 00 H_SWITH 0.uF 00 0% V H_PX_Pn R K /W % 00 00 /W % 00 U0 NLOG/-PZ-R VS F P IN N HS R 0 /W % 00 H_GIX nalog Input Signals to nalog Output Signal 0 0.uF 00 0% V 0 0.0uF 00 0% V R 0 /W % 00 pf 0V 0% 00 R 0.uF 00 0% V H_PX_Pn R K /W % 00 00 /W % 00 U NLOG/-PZ-R VS F P IN N HS R 0 /W % 00 H_GIX P0V F TK/MPZ0S H_PSIG_P0V P0V 0.uF 00 0.0uF 0% 00 V 0% V F TK/MPZ0S 0.uF 00 0% V F TK/MPZ0S -P0V_ 0.uF 00 0% V R 0 /W % 00 H_SWITH U NLOG/-PZ-R VS F P IN N HS Unity Gain uffer H_SIGNL R0. /W % 00 0.uF 00 0% V R. /W % 00 0 0.uF 00 0% V R 00 /W % 00 0.0uF 00 0% V R /W % 00 0.0uF 00 0% V R /W % 00 R /W % 00 Single-Ended to ifferential mplifier : Unity Gain (/-.Vpp) Input Range _VM F 0.uF 00 U 0% NLOG/-YPZ-R V VS VS VOM VS R VS F- 0 /W % IN 0pF - 00 0V 0% R 00 HS P /W % 00 nk Research/rrow - L _VIN nh 00 % pf 0V 0% L 00 _V nh 00 % Size ocument Number Rev.0 G Friday, June, 0 ate: Sheet of

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