TDB File: Generic This is a binary Tanner Database file. DO NOT EDIT!!!  j j dR Grid LayerRDrag Box LayerR Origin LayerRCell Outline LayerR Error LayerRPolyRPoly2RActiveR Metal1R Metal2R N WellR N SelectR P SelectRP BaseR Poly ContactR Poly2 ContactRActive ContactRViaRCCDR OverglassR Pad CommentR MEMS OpenRMEMS Etch_StopR Icon/OutlineR SubCkt IDR Capacitor IDR Resistor IDRN Well Resistor IDRP Base Resistor IDRDIODE IDRNPN IDR LPNP IDR!VPNP IDR"PNP Emitter IDR#LabelR$ Label FilledR%RulerR& Device LabelR'Well XR( Poly OrPoly2R)NotPolyR*NotPoly2R+ActNSelNotPolyR,ActPSelNotPolyR-P/P2/Act ContactR. Not Metal1R/ Not Metal2R0CCD&ActR1 CCD& ActContR2ActCont& NOTCCDR3 NotExistsR4 poly wireR5 poly2 wireR6 p base wireR7 n well wireR8npnR9subsR:allsubsR;NotPBaseR<gate1R=gate2R> field activeR?pdiffR@ndiffRA Poly ResistorRBPoly2 ResistorRCN Diff ResistorRDP Diff ResistorREN Well ResistorRFP Base ResistorRGPoly1-Poly2 CapacitorRHNMOS CapacitorRIPMOS CapacitorRJ diode pdiffRK diode ndiffRL diode_latRMntranRNptranROntran2RPptran2RQ PNP emitterRRLPNP collectorRSVPNP collectorRTGatesRU Field PolyRVn ActiveRWn Active in npnRXp ActiveRYp Active in npnRZ SelNotInWellR[OtherSelInWellR\pSelect&nSelectR]Active not in NPNR^Not Selected ActiveR_ ViaNotOnPadR`n Active InPBaseRaN-Select InPBaseRbP-Select InPBaseRccollector activeRdP1&P2 & Poly2CapReActCnt_not_on_actRfPolyCnt_not_on_PolygP2Cnt_not_on_Poly2Cdj$jCC Q Q Q Q Q Q    ZC Q Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q f3f3Q Q Q    ZC Q Q Q Q Q Q  P  6pZC Q Q UUUUQ Q Q Q Q    ZC Q Q Q Q Q Q    ZC  Q Q Q Q Q Q  P   ZC  Q Q Q Q Q Q     ZC  Q Q Q @@Q Q Q Q    d0ZC  Q Q Q   Q Q Q Q    ZC  Q Q Q DDQ Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q UUUUQ Q Q Q    ZC Q Q 3333Q Q Q Q    ZC Q Q 3333Q Q Q Q  P  ZC Q Q 3333Q Q Q Q    ZC Q Q 3333Q Q Q Q    ZC Q Q Q Q Q Q    ZC Q Q DDQ Q Q Q    ZC Q Q |@@@@|Q Q Q Q Q    ZC Q Q ~B~HDBQ Q Q Q Q    ZC Q Q Q Q Q Q Q    d0ZC Q Q Q Q Q Q Q    ZC Q Q >>Q Q Q Q    ZC Q Q (00(Q Q Q Q Q    ZC  Q Q (00(Q Q Q Q Q    ZC! Q Q Q Q Q Q    ZC" Q Q x@@p@@xQ Q Q Q Q    ZC# Q Q Q Q Q Q    ZC$ Q Q Q Q Q Q    ZC% Q Q Q Q Q Q    ZC& Q Q Q Q Q Q    ZC' Q Q @@Q Q Q Q Q    Z C( Q Q Q Q Q Q    ZC) Q Q Q Q Q Q    ZC* Q Q Q Q Q Q    ZC+ Q Q Q Q Q Q    Z (C, Q Q Q Q Q Q    Z (C- Q Q Q Q Q Q    ZC. Q Q Q Q Q Q    Z C/ Q Q Q Q Q Q    Z C0 Q Q Q Q Q Q    ZC1 Q Q Q Q Q Q    ZC2 Q Q Q Q Q Q    ZC3 Q Q Q Q Q Q    ZC4 Q Q Q Q Q Q    ZC5 Q Q Q Q Q Q    ZC6 Q Q Q Q Q Q    ZC7 Q Q Q Q Q Q    Z C8 Q Q Q Q Q Q    ZC9 Q Q Q Q Q Q    Z C: Q Q Q Q Q Q    Z3C; Q Q Q Q Q Q    ZC< Q Q Q Q Q Q    ZC= Q Q Q Q Q Q    ZC> Q Q Q Q Q Q    Z(C? Q Q Q Q Q Q  "  Z> C@ Q Q Q Q Q Q  (  fZ> CA Q Q Q Q Q Q    6ZCB Q Q Q Q Q Q    ZCC Q Q Q Q Q Q    fZ+CD Q Q Q Q Q Q    Z, CE Q Q Q Q Q Q    d0Z CF Q Q Q Q Q Q    ZCG Q Q Q Q Q Q  y  ZCH Q Q Q Q Q Q    Z< CI Q Q Q Q Q Q   Y Z< CJ Q Q Q Q Q Q    Z?7CK Q Q Q Q Q Q    Z@9CL Q Q Q Q Q Q    Z?@CM Q Q Q Q Q Q    Z<9CN Q Q Q Q Q Q    Z< CO Q Q Q Q Q Q    Z=9CP Q Q Q Q Q Q    Z= CQ Q Q Q Q Q Q    Z"?CR Q Q Q Q Q Q    Z ?"CS Q Q Q Q Q Q    Z!:CT Q Q Q Q Q Q    Z<=CU Q Q Q Q Q Q    ZCV Q Q Q Q Q Q    Z CW Q Q Q Q Q Q    Z CX Q Q Q Q Q Q    Z CY Q Q Q Q Q Q    Z CZ Q Q Q Q Q Q    Z C[ Q Q Q Q Q Q    Z C\ Q Q Q Q Q Q    Z C] Q Q Q Q Q Q    ZC^ Q Q Q Q Q Q    Z] C_ Q Q Q Q Q Q    ZC` Q Q Q Q Q Q    ZVCa Q Q Q Q Q Q    Z Cb Q Q Q Q Q Q    Z Cc Q Q Q Q Q Q    ZCd Q Q Q Q Q Q    ZCe Q Q Q Q Q Q    ZCf Q Q Q Q Q Q    ZCg Q Q Q Q Q Q    ZQ20UUUUUUUUUUUUUUUSCNAMEMSLambdad Pd  Y CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q 3f̙3f̙Q Q Q  CQ Q f3f3Q Q Q  CQ Q Q Q Q  C Q Q UUUUQ Q Q  C Q Q DDDDQ Q Q Q  C Q Q Q D"D"Q Q Q  C Q Q Q "D"DQ Q Q  C Q Q DDQ Q Q Q  CQ Q UUUUQ Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q Q  CQ Q ffQ Q Q  CQ Q Q 3333Q Q Q  CQ Q 3333Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  DDCQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  CQ Q Q Q Q  C Q Q Q Q Q  C!Q Q Q Q Q  C"Q Q Q Q Q  C#Q Q Q Q Q  C$Q Q Q Q Q  D%D&C'Q Q Q Q Q  C(Q Q Q Q Q  C)Q Q Q Q Q  C*Q Q Q Q Q  C+Q Q Q Q Q  C,Q Q Q Q Q  C-Q Q Q Q Q  C.Q Q Q Q Q  C/Q Q Q Q Q  C0Q Q Q Q Q  C1Q Q Q Q Q  C2Q Q Q Q Q  C3Q Q Q Q Q  C4Q Q Q Q Q  C5Q Q Q Q Q  C6Q Q Q Q Q  C7Q Q Q Q Q  C8Q Q Q Q Q  C9Q Q Q Q Q  C:Q Q Q Q Q  C;Q Q Q Q Q  CQ Q Q Q Q  C?Q Q Q Q Q  C@Q Q Q Q Q  DADBDCDDDEDFDGDHDICJQ Q Q Q Q  CKQ Q Q Q Q  CLQ Q Q Q Q  CMQ Q Q Q Q  CNQ Q Q Q Q  COQ Q Q Q Q  CPQ Q Q Q Q  CQQ Q Q Q Q  CRQ Q Q Q Q  CSQ Q Q Q Q  CTQ Q Q Q Q  CUQ Q Q Q Q  CVQ Q Q Q Q  CWQ Q Q Q Q  CXQ Q Q Q Q  CYQ Q Q Q Q  CZQ Q Q Q Q  C[Q Q Q Q Q  C\Q Q Q Q Q  C]Q Q Q Q Q  C^Q Q Q Q Q  C_Q Q Q Q Q  C`Q Q Q Q Q  CaQ Q Q Q Q  CbQ Q Q Q Q  CcQ Q Q Q Q  CdQ Q Q Q Q  CeQ Q Q Q Q  CfQ Q Q Q Q  gQ Q Q Q Q  DDDDDCccccccC(PCFFFFC c22cccccC PWWZccccccC aa2ccccccC ZZFP-c-C CCcccccccCcCcCccccccccccCcP  cccccDCPcccccccDDC222DDDDDDDD D!D"C#C$D%D&D'D(D)D*D+D,D-D.D/D0D1D2D3D4D5D6D7D8D9D:D;DD?D@DADBDCDDDEDFDGDHDIDJDKDLDMDNDODPDQDRDSDTDUDVDWDXDYDZD[D\D]D^D_D`DaDbDcDdDeDfgHH H H H HHHH RCPGRCELRCAAR CMFR CMSR CWNR CSNR CSPRCBARCCPRCCERCCARCVARCCDRCOGRXPRCOPRCPSRCXHHHHHH.H8H+H 1H 3H *H -H ,H:H/H7H0H2H9H4HHHHHHHHHHHH H!H"H#H$H%H&H'H(H)H*H+H,H-H.H/H0H1H2H3H4H5H6H7H8H9H:H;HH?H@HAHBHCHDHEHFHGHHHIHJHKHLHMHNHOHPHQHRHSHTHUHVHWHXHYHZH[H\H]H^H_H`HaHbHcHdHeHfHg@ VddGnd morbn20d.tdb RowCrosserTieHighTieLowCoreRowChannelCrossAbutY Y Y     0  New PadNew PadNew PadNew PadNew PadGndPadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadVddPadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadNew PadCoreAbutFrame PadlessCornerPadVddPadGnd morbn20d.tdbY""MirrorLightsY Y  Y  Y       1.1 Well Minimum Width  '20.1 minimum p base width  20.2 p base to p base spacing  <1.2 Well to Well (Different Potential) Spacing - Not checked )1.3 Well to Well (Same Potential) Spacing  p2.1 Active Minimum Width  2.2 Active to Active Spacing  %2.3a Source/Drain Active to Well Edge?  '2.3b Source/Drain Active to Well Space @  %2.4a WellContact(Active) to Well EdgeV   (2.4b SubsContact(Active) to Well SpacingX   42.5 Covered in 4.2a. Active from different implant 3.1 Poly Minimum Width 3.2 Poly to Poly Spacing  3.3 Gate Extension out of Active 3.4a/4.1a Source/Drain Width(V  3.4b/4.1b Source/Drain Width(X  3.5 Poly to Active Spacing  4.2a/2.5 Active to N-Select Edge]   4.2b/2.5 Active to P-Select Edge]  4.3a Select Edge to ActCnt@ 4.3b Select Edge to ActCnt? %4.3c Not Exists: ActCnt not on Activee 4.4a Select Minimum Width  4.4b Select Minimum Width  4.4c Select to Select Spacing  4.4d Select to Select Spacing  &4.5 Not Existing: pSel Overlap of nSel\ %4.6 Not Existing: Not Selected Active^ 5.1A Poly Contact Exact Size &5.2A/5.6B FieldPoly Overlap of PolyCntU $5.2b Not Exists: PolyCnt not on Polyf '5.3A PolyContact to PolyContact Spacing 6.1A Active Contact Exact Size "6.2A FieldActive Overlap of ActCnt> 6.3A ActCnt to ActCnt Spacing #6.4A Active Contact to Gate Spacing< 7.1 Metal1 Minimum Width   7.2 Metal1 to Metal1 Spacing   !7.3 Metal1 Overlap of PolyContact  #7.4 Metal1 Overlap of ActiveContact  8.1 Via Exact Size_ 8.2 Via to Via Spacing_  8.3 Metal1 Overlap of Via_  8.4a Via to PolyContact spacing_ "8.5b. Via to ActiveContact Spacing_ 8.5a Via to Poly Spacing_ 8.5b Via(On Poly) to Poly Edge_ 8.5c Via to Active Spacing_ #8.5d Via (On Active) to Active Edge_ 9.1 Metal2 Minimum Width   9.2 Metal2 to Metal2 Spacing   9.3 Metal2 Overlap of Via1  '10.1a Bonding Area: OverGlass (88x88um) W)10.1b BondingArea: PadComment (100x100um) p!10.1c Bonding Area: Via (90x90um) &10.1d Bonding Area: Metal2 (100x100um)  p&10.1e Bonding Area: Metal1 (102x102um)  X(10.4 Pad to Unrelated-Metal2 Space(30um)  u0$10.5a Pad to Unrelated-Metal1 (15um)  :(10.5b Pad to Unrelated-Poly Space (15um) :'10.5c Pad to Unrelated-Act Space (15um) :#11.1 Capacitor: Poly2 Minimum Widthd  (11.2/12.2 Cap/Trans: Poly2toPoly2 Space   $11.3 Minimum poly overlap with poly2 &11.4a Capacitor: Poly2 Space to Actived '11.4b Capacitor: Poly2 to Well Spacing d  #11.4c Capacitor: Poly2 to Well Edged  (11.5/12.6a Cap/T: Poly2 Space to PolyCnt  $12.1 Transistor: Poly2 Minimum Width (12.3 Trans: Gate Extension Out of Active (12.4 Transistor: Poly2 to Active Spacing '12.5a Transistor: Poly2 to Poly Spacing +12.5b/19.6 Cap/Trans: Poly Overlap of Poly2 #12.5c Trans: P1&P2overlap to P2Edge (11.3/12.5d Cap/T: P1&P2overlap to P1Edge '12.6b Transistor: Poly2 to ActCnt Space2  13.1 Poly2Contact Exact Size %13.2 Poly2Contact to Poly2Cnt Spacing $13.3 P2CapPlates Overlap of Poly2Cntd  (13.4 Poly2(NotCapPlate) Overlap Poly2Cnt '13.4b Not Exists: Poly2Cnt not on Poly2g 13.5a Poly2Cnt Space to Poly  13.5b Poly2Cnt Space to Active  13.5c Poly2Cnt Space to Via1 13.6 Metal1 Overlap Poly2Cnt  )16.1 Covered in 5.1a. Exact Contact Size #16.2 Select overlap emitter contacta  #16.3 P-Base surround emitter selecta (16.4 Space between emitter select & baseba !16.5 pbase overlap of base selectb #16.6 select overlap of base contactb 16.7 N-Well overlap of pbase  p%16.8 P-Base space to collector activeV (16.9 Active overlap of collector contactc (16.10 N-Well overlap of collector activec   (16.11 Select overlap of collector activec  19.1 CCD Active Width0 19.2 CCD Active Spacing0 19.3 CCD overlap of Active 19.4 CCD to Outside Contact-  19.5 not checked 219.6 Covered in 11.3. Poly/Poly2 ovlp with Active  19.7 Contact to Poly1or2 Spacing1( "MOSIS/ORBIT 2.0U SCNA Design Rules WC:\Documents and Settings\Administrator\My Documents\18-courses\18-310(2006)\19-310.extextractout.txt  .include morbn20.md   3    '   %MOSIS/ORBIT 2.0U TechnologyCdjjjjCell0 Y 0D00PCYRD?16.8 P-Base space to collector active [3.500 < 4 Locator Units]YLR RLDYLRRY:?16.8 P-Base space to collector active [3.500 < 4 Locator Units]YL: :LԑYL::CY0@Y0Y@ Z Y0@Y0@ Z 0@C0:hRy>N J8>YN C 0 N J8 YN y N C #(p u0C  (28YqH6UC Bh6aUC:.X]C0BhJ8N BhUJ8}BhJ8C% YR:zf   '    FPX FP    dCell0]i5~