----------------------------------------------------------------------- -- Boundary Scan Description Language (IEEE P1149.1b) -- -- -- -- Device : LH7A400 -- File Version : 1.1 -- File Name : LH7A400_BSDL.txt -- File created : Jan 24, 2003 -- Package type : PBGA ----------------------------------------------------------------------- ----------------------------------------------------------------------- -- IMPORTANT NOTICE -- -- This information is provided on an AS IS basis and without warranty. -- IN NO EVENT SHALL NXP BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL -- DAMAGES ARISING FROM USE OF THIS INFORMATION. THIS DISCLAIMER OF -- WARRANTY EXTENDS TO THE USER OF THE INFORMATION, AND TO THEIR -- CUSTOMERS OR USERS OF PRODUCTS AND IS IN LIEU OF ALL WARRANTIES -- WHETHER EXPRESS, IMPLIED, OR STATUTORY, INCLUDING IMPLIED WARRANTIES -- OF MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE. -- -- -- NXP does not represent or warrant that the information furnished -- hereunder is free of infringement of any third party patents, -- copyrights, trade secrets, or other intellectual property rights. -- NXP does not represent or warrant that the information is free of -- defect, or that it meets any particular standard, requirements or -- need of the user of the information or their customers. -- -- -- NXP reserves the right to change the information in this file -- without notice. ----------------------------------------------------------------------- ----------------------------------------------------------------------- -- $Id: LH7A400_BSDL.txt.rca 1.3 Fri Sep 8 16:05:20 2006 wwhite $ ----------------------------------------------------------------------- -- Notes: -- (1) Signal A25 is a bidirectional pin with an open-drain output -- during boundary scan mode. -- This signal cannot be driven to a '1' during boundary -- scan test unless this pin is tied to an external pullup resistor. -- (2) The HIGHZ command in not implemented in this design. entity LH7A400 is generic(PHYSICAL_PIN_MAP : string := "PBGA"); port ( CS6 : OUT BIT; CS7 : OUT BIT; nCS : OUT BIT_VECTOR(3 downto 0); nWE3 : OUT BIT; OSCEN : INOUT BIT; PA : INOUT BIT_VECTOR(7 downto 0); PB : INOUT BIT_VECTOR(7 downto 0); PC : INOUT BIT_VECTOR(7 downto 0); PD : INOUT BIT_VECTOR(7 downto 0); PE : INOUT BIT_VECTOR(3 downto 0); PF : INOUT BIT_VECTOR(7 downto 0); PG : INOUT BIT_VECTOR(7 downto 0); PH : INOUT BIT_VECTOR(7 downto 0); IRTX2 : INOUT BIT; IRRX2 : INOUT BIT; UARTTXD2 : INOUT BIT; UARTRXD2 : INOUT BIT; UARTCTS2 : INOUT BIT; UARTDCD2 : INOUT BIT; UARTDSR2 : INOUT BIT; XTAL32OUT : OUT BIT; XTAL32IN : IN BIT; AC97IN : INOUT BIT; AC97CLK : INOUT BIT; AC97OUT : OUT BIT; AC97SYNC : OUT BIT; SSPRX : INOUT BIT; SSPFRM : OUT BIT; SSPTX : OUT BIT; SSPCLK : OUT BIT; PGMCLK : OUT BIT; PWM : INOUT BIT_VECTOR(1 downto 0); PWMEN : INOUT BIT_VECTOR(1 downto 0); COL : INOUT BIT_VECTOR(7 downto 0); BUZ : INOUT BIT; D : INOUT BIT_VECTOR(31 downto 0); A27 : OUT BIT; A26 : INOUT BIT; A25 : INOUT BIT; A : OUT BIT_VECTOR(24 downto 0); nBATCHG : IN BIT; nEXTPWR : IN BIT; BATOK : IN BIT; nPOR : IN BIT; MEDCHG : IN BIT; XTALIN : IN BIT; XTALOUT : OUT BIT; nURESET : IN BIT; WAKEUP : IN BIT; nPWRFL : IN BIT; LCDLP : OUT BIT; LCDDCLK : OUT BIT; LCDFP : OUT BIT; LCDM : OUT BIT; LCDVD : OUT BIT_VECTOR(3 downto 0); nRAS : INOUT BIT; nCAS : INOUT BIT; nSWE : OUT BIT; nSCS : INOUT BIT_VECTOR(3 downto 0); SCLK : INOUT BIT; SCKEN3 : INOUT BIT; DQM0 : INOUT BIT; DQM1 : INOUT BIT; DQM2 : INOUT BIT; DQM3 : OUT BIT; nWE0 : INOUT BIT; nOE : OUT BIT; MMCCLK : INOUT BIT; MMCCMD : INOUT BIT; MMCDATA : INOUT BIT; nTEST : IN BIT_VECTOR(1 downto 0); BOOTWIDTH : IN BIT_VECTOR(1 downto 0); USBDP : INOUT BIT; USBDN : INOUT BIT; TDI : IN BIT; TDO : OUT BIT; TMST : IN BIT; TCLK : IN BIT; VDD : LINKAGE BIT_VECTOR(1 to 14); -- I/O RING VDD VSS : LINKAGE BIT_VECTOR(1 to 15); -- I/O RING VSS VDDC : LINKAGE BIT_VECTOR(1 to 9); -- Digital Core VDD VSSC : LINKAGE BIT_VECTOR(1 to 9); -- Digital Core GND VDDA1 : LINKAGE BIT; -- Analog power for PLL1 VSSA1 : LINKAGE BIT; -- Analog GND for PLL1 VDDA2 : LINKAGE BIT; -- Analog power for PLL2 VSSA2 : LINKAGE BIT -- Analog GND for PLL2 ); use STD_1149_1_1994.all; attribute COMPONENT_CONFORMANCE of LH7A400 : entity is "STD_1149_1_1993"; attribute PIN_MAP of LH7A400 : entity is PHYSICAL_PIN_MAP; constant PBGA : PIN_MAP_STRING := "CS6 : B10," & "CS7 : C10," & "nCS: (M12, P13, K10, K11)," & "nWE3 : D10," & "OSCEN : P14," & "PA : ( L3, L2, L1, K5, K3, K2, K1, J5)," & "PB : (N3, N2, N1, M4, M2, L7, L5, L4)," & "PC : (R2, T2, T1, L8, K6, R1, P2, P1)," & "PD : (R10, P10, T9, R9, N11, K8, L11, M11)," & "PE : (M10, M9, N10, L10)," & "PF : (C5, E6, D6, B5, H8, C6, B6, A6)," & "PG : (N4,M8,M7,N6, M6, L6, T3, R3)," & "PH : (T5, R5, P5, P8, N7, " & "T4, R4, P4)," & "IRTX2: F2," & "IRRX2 : F3," & "UARTTXD2 : F4," & "UARTRXD2 : J7," & "UARTCTS2 : E2," & "UARTDCD2 : E3," & "UARTDSR2 : E5," & "XTAL32OUT: P15," & "XTAL32IN: P16," & "AC97IN : A4," & "AC97CLK: C4," & "AC97OUT: D5," & "AC97SYNC: B4," & "SSPRX : J1," & "SSPFRM : J3," & "SSPTX : J2," & "SSPCLK : H4," & "PGMCLK : J6," & "PWM : (B7,C7),"& "PWMEN : (D7,E7)," & "COL : (H2, H1, G5, G4, G2, G1, F5, F6)," & "BUZ : H3," & "D : (D11, B11, B12, G10," & "E12, C13, B13, A14," & "A16,F10,D14,H10," & "D16,E14,F12,F15," & "G12,G11,G15,H13,H15," & "J10,J13,J15,K12," & "H11,L14,L15,L16," & "N13,M15,L12)," & "A27 : A8," & "A26 : F8," & "A25 : G8," & "A : (A13, A15, B16, C16," & "D15, F11, E13, E16, F14," & "F16, G13, G14, G16," & "H14, H16, J9, J14," & "J16, J8, K14, K15," & "K16, M13, N14, M16)," & "nBATCHG : D2," & "nEXTPWR : C2," & "BATOK : D1," & "nPOR : D3," & "MEDCHG : C3," & "XTALIN : R13," & "XTALOUT : T13," & "nURESET : H6," & "WAKEUP : D4," & "nPWRFL : E4," & "LCDLP : R8," & "LCDDCLK: N9," & "LCDFP : R6," & "LCDM : P9," & "LCDVD : (N8, T7, R7, P7)," & "nRAS : F9," & "nCAS : C11," & "nSWE : C12," & "nSCS : ( A12, E11, D13, C14)," & "SCLK : A10," & "SCKEN3 : G9," & "DQM0 : A9," & "DQM1 : B9," & "DQM2 : D9," & "DQM3 : E9," & "nWE0 : C8," & "nOE : D8," & "MMCCLK : A3," & "MMCCMD : B3," & "MMCDATA : A2," & "nTEST : ( R15, T12)," & "BOOTWIDTH : (R12, P11)," & "USBDP : T15," & "USBDN : T16," & "TDI : A1," & "TDO : B2," & "TMST : C1," & "TCLK : B1," & "VDD : (G7,F1,K7,M1,M5,T6,R14,M14,J11,J12,F13,B14,E10,B8)," & "VSS : (H7,G3,K4,N5,P6,T14,R16,N16,K13,H9,C15,A11,E8,A5,F7)," & "VDDC : (E1,J4,P3,T8,K9,L13,E15,D12,A7)," & "VSSC : (H5,M3,L9,T10,N15,H12,B15,C9,G6)," & "VDDA1 : R11," & "VSSA1 : T11," & "VDDA2 : N12," & "VSSA2 : P12"; attribute TAP_SCAN_IN of TDI : signal is true; attribute TAP_SCAN_MODE of TMST : signal is true; attribute TAP_SCAN_OUT of TDO : signal is true; attribute TAP_SCAN_CLOCK of TCLK : signal is (20.0e6,BOTH); attribute TAP_SCAN_RESET of nPOR : signal is true; attribute COMPLIANCE_PATTERNS of LH7A400: entity is "(nTEST(1),nTEST(0), nURESET) (101)"; attribute INSTRUCTION_LENGTH of LH7A400 : entity is 4; attribute INSTRUCTION_OPCODE of LH7A400 : entity is "extest (0000)," & "bypass (1111)," & "sample (0011)," & "clamp (0101)," & "idcode (1110)"; attribute INSTRUCTION_CAPTURE of LH7A400 : entity is "0001"; attribute IDCODE_REGISTER of LH7A400 : entity is "0000" & -- Version Number "0000100100100010" & -- Part number "11110000111" & -- Manufactuer ID "1"; -- Required by IEEE Std. 1149.1 attribute REGISTER_ACCESS of LH7A400 : entity is "BOUNDARY (extest,sample), " & "DEVICE_ID (idcode), " & "BYPASS (bypass,clamp)"; --{********************************************************} --{ The first cell, cell 0 is closest to TDO } --{ BC_1: used on all control and Output3 cells } --{ BC_4: used on all inputs } --{********************************************************} attribute BOUNDARY_LENGTH of LH7A400 : entity is 507; attribute BOUNDARY_REGISTER of LH7A400 : entity is -- # cell name function safe control disable disable -- type bit signal value result "0 (BC_1, MMCDATA, output3, X, 1, 0, Z)," & "1 (BC_1, *, control, 0 )," & "2 (BC_4, MMCDATA, observe_only, X )," & "3 (BC_1, MMCCMD, output3, X, 4, 0, Z)," & "4 (BC_1, *, control, 0 )," & "5 (BC_4, MMCCMD, observe_only, X )," & "6 (BC_1, MMCCLK, output3, X, 7, 0, Z)," & "7 (BC_1, *, control, 0 )," & "8 (BC_4, MMCCLK, observe_only, X )," & "9 (BC_1, AC97IN, output3, X, 10, 0, Z)," & "10 (BC_1, *, control, 0 )," & "11 (BC_4, AC97IN, observe_only, X )," & "12 (BC_1, AC97SYNC, output3, X, 13, 0, Z)," & "13 (BC_1, *, control, 0 )," & "14 (BC_1, AC97OUT,output3, X, 15, 0, Z)," & "15 (BC_1, *, control, 0 )," & "16 (BC_1, PF(3), output3, X, 17, 0, Z)," & "17 (BC_1, *, control, 0 )," & "18 (BC_4, PF(3), observe_only, X )," & "19 (BC_1, AC97CLK,output3, X, 20, 0, Z)," & "20 (BC_1, *, control, 0 )," & "21 (BC_4, AC97CLK,observe_only, X )," & "22 (BC_1, PF(7), output3, X, 23, 0, Z)," & "23 (BC_1, *, control, 0 )," & "24 (BC_4, PF(7), observe_only, X )," & "25 (BC_1, PF(6), output3, X, 26, 0, Z)," & "26 (BC_1, *, control, 0 )," & "27 (BC_4, PF(6), observe_only, X )," & "28 (BC_1, PF(5), output3, X, 29, 0, Z)," & "29 (BC_1, *, control, 0 )," & "30 (BC_4, PF(5), observe_only, X )," & "31 (BC_1, PF(4), output3, X, 32, 0, Z)," & "32 (BC_1, *, control, 0 )," & "33 (BC_4, PF(4), observe_only, X )," & "34 (BC_1, PF(2), output3, X, 35, 0, Z)," & "35 (BC_1, *, control, 0 )," & "36 (BC_4, PF(2), observe_only, X )," & "37 (BC_1, PF(1), output3, X, 38, 0, Z)," & "38 (BC_1, *, control, 0 )," & "39 (BC_4, PF(1), observe_only, X )," & "40 (BC_1, PF(0), output3, X, 41, 0, Z)," & "41 (BC_1, *, control, 0 )," & "42 (BC_4, PF(0), observe_only, X )," & "43 (BC_1, PWM(1), output3, X, 44, 0, Z)," & "44 (BC_1, *, control, 0 )," & "45 (BC_4, PWM(1), observe_only, X )," & "46 (BC_1, PWM(0), output3, X, 47, 0, Z)," & "47 (BC_1, *, control, 0 )," & "48 (BC_4, PWM(0), observe_only, X )," & "49 (BC_1, PWMEN(1),output3, X, 50, 0, Z)," & "50 (BC_1, *, control, 0 )," & "51 (BC_4, PWMEN(1),observe_only, X )," & "52 (BC_1, PWMEN(0),output3, X, 53, 0, Z)," & "53 (BC_1, *, control, 0 )," & "54 (BC_4, PWMEN(0),observe_only, X )," & "55 (BC_1, A27, output3, X, 56, 0, Z)," & "56 (BC_1, *, control, 0 )," & "57 (BC_1, A26, output3, X, 58, 0, Z)," & "58 (BC_1, *, control, 0 )," & "59 (BC_4, A26, observe_only, X )," & "60 (BC_1, A25, output3, X, 61, 0, Z)," & "61 (BC_1, *, control, 0 )," & "62 (BC_4, A25, observe_only, X )," & "63 (BC_1, nWE0, output3, X, 64, 0, Z)," & "64 (BC_1, *, control, 0 )," & "65 (BC_4, nWE0, observe_only, X )," & "66 (BC_1, nOE, output3, X, 67, 0, Z)," & "67 (BC_1, *, control, 0 )," & "68 (BC_1, DQM3, output3, X, 69, 0, Z)," & "69 (BC_1, *, control, 0 )," & "70 (BC_1, DQM2, output3, X, 71, 0, Z)," & "71 (BC_1, *, control, 0 )," & "72 (BC_4, DQM2, observe_only, X )," & "73 (BC_1, DQM1, output3, X, 74, 0, Z)," & "74 (BC_1, *, control, 0 )," & "75 (BC_4, DQM1, observe_only, X )," & "76 (BC_1, DQM0, output3, X, 77, 0, Z)," & "77 (BC_1, *, control, 0 )," & "78 (BC_4, DQM0, observe_only, X )," & "79 (BC_1, nWE3, output3, X, 80, 0, Z)," & "80 (BC_1, *, control, 0 )," & "81 (BC_1, CS7, output3, X, 82, 0, Z)," & "82 (BC_1, *, control, 0 )," & "83 (BC_1, CS6, output3, X, 84, 0, Z)," & "84 (BC_1, *, control, 0 )," & "85 (BC_1, SCLK, output3, X, 86, 0, Z)," & "86 (BC_1, *, control, 0 )," & "87 (BC_4, SCLK, observe_only, X )," & "88 (BC_1, SCKEN3, output3, X, 89, 0, Z)," & "89 (BC_1, *, control, 0 )," & "90 (BC_4, SCKEN3, observe_only, X )," & "91 (BC_1, nRAS, output3, X, 92, 0, Z)," & "92 (BC_1, *, control, 0 )," & "93 (BC_4, nRAS, observe_only, X )," & "94 (BC_1, D(31), output3, X, 95, 0, Z)," & "95 (BC_1, *, control, 0 )," & "96 (BC_4, D(31), observe_only, X )," & "97 (BC_1, nCAS, output3, X, 98, 0, Z)," & "98 (BC_1, *, control, 0 )," & "99 (BC_4, nCAS, observe_only, X )," & "100 (BC_1, D(30), output3, X, 101, 0, Z)," & "101 (BC_1, *, control, 0 )," & "102 (BC_4, D(30), observe_only, X )," & "103 (BC_1, nSWE, output3, X, 104, 0, Z)," & "104 (BC_1, *, control, 0 )," & "105 (BC_1, D(29), output3, X, 106, 0, Z)," & "106 (BC_1, *, control, 0 )," & "107 (BC_4, D(29), observe_only, X )," & "108 (BC_1, nSCS(3), output3, X, 109, 0, Z)," & "109 (BC_1, *, control, 0 )," & "110 (BC_4, nSCS(3), observe_only, X )," & "111 (BC_1, D(28), output3, X, 112, 0, Z)," & "112 (BC_1, *, control, 0 )," & "113 (BC_4, D(28), observe_only, X )," & "114 (BC_1, nSCS(2), output3, X, 115, 0, Z)," & "115 (BC_1, *, control, 0 )," & "116 (BC_4, nSCS(2), observe_only, X )," & "117 (BC_1, D(27), output3, X, 118, 0, Z)," & "118 (BC_1, *, control, 0 )," & "119 (BC_4, D(27), observe_only, X )," & "120 (BC_1, nSCS(1), output3, X, 121, 0, Z)," & "121 (BC_1, *, control, 0 )," & "122 (BC_4, nSCS(1), observe_only, X )," & "123 (BC_1, D(26), output3, X, 124, 0, Z)," & "124 (BC_1, *, control, 0 )," & "125 (BC_4, D(26), observe_only, X )," & "126 (BC_1, nSCS(0),output3, X, 127, 0, Z)," & "127 (BC_1, *, control, 0 )," & "128 (BC_4, nSCS(0), observe_only, X )," & "129 (BC_1, D(25), output3, X, 130, 0, Z)," & "130 (BC_1, *, control, 0 )," & "131 (BC_4, D(25), observe_only, X )," & "132 (BC_1, A(24), output3, X, 133, 0, Z)," & "133 (BC_1, *, control, 0 )," & "134 (BC_1, D(24), output3, X, 135, 0, Z)," & "135 (BC_1, *, control, 0 )," & "136 (BC_4, D(24), observe_only, X )," & "137 (BC_1, A(23), output3, X, 138, 0, Z)," & "138 (BC_1, *, control, 0 )," & "139 (BC_1, D(23), output3, X, 140, 0, Z)," & "140 (BC_1, *, control, 0 )," & "141 (BC_4, D(23), observe_only, X )," & "142 (BC_1, A(22), output3, X, 143, 0, Z)," & "143 (BC_1, *, control, 0 )," & "144 (BC_1, D(22), output3, X, 145, 0, Z)," & "145 (BC_1, *, control, 0 )," & "146 (BC_4, D(22), observe_only, X )," & "147 (BC_1, A(21), output3, X, 148, 0, Z)," & "148 (BC_1, *, control, 0 )," & "149 (BC_1, D(21), output3, X, 150, 0, Z)," & "150 (BC_1, *, control, 0 )," & "151 (BC_4, D(21), observe_only, X )," & "152 (BC_1, A(20), output3, X, 153, 0, Z)," & "153 (BC_1, *, control, 0 )," & "154 (BC_1, D(20), output3, X, 155, 0, Z)," & "155 (BC_1, *, control, 0 )," & "156 (BC_4, D(20), observe_only, X )," & "157 (BC_1, A(19), output3, X, 158, 0, Z)," & "158 (BC_1, *, control, 0 )," & "159 (BC_1, D(19), output3, X, 160, 0, Z)," & "160 (BC_1, *, control, 0 )," & "161 (BC_4, D(19), observe_only, X )," & "162 (BC_1, A(18), output3, X, 163, 0, Z)," & "163 (BC_1, *, control, 0 )," & "164 (BC_1, D(18), output3, X, 165, 0, Z)," & "165 (BC_1, *, control, 0 )," & "166 (BC_4, D(18), observe_only, X )," & "167 (BC_1, A(17), output3, X, 168, 0, Z)," & "168 (BC_1, *, control, 0 )," & "169 (BC_1, D(17), output3, X, 170, 0, Z)," & "170 (BC_1, *, control, 0 )," & "171 (BC_4, D(17), observe_only, X )," & "172 (BC_1, A(16), output3, X, 173, 0, Z)," & "173 (BC_1, *, control, 0 )," & "174 (BC_1, D(16), output3, X, 175, 0, Z)," & "175 (BC_1, *, control, 0 )," & "176 (BC_4, D(16), observe_only, X )," & "177 (BC_1, A(15), output3, X, 178, 0, Z)," & "178 (BC_1, *, control, 0 )," & "179 (BC_1, D(15), output3, X, 180, 0, Z)," & "180 (BC_1, *, control, 0 )," & "181 (BC_4, D(15), observe_only, X )," & "182 (BC_1, A(14), output3, X, 183, 0, Z)," & "183 (BC_1, *, control, 0 )," & "184 (BC_1, D(14), output3, X, 185, 0, Z)," & "185 (BC_1, *, control, 0 )," & "186 (BC_4, D(14), observe_only, X )," & "187 (BC_1, A(13), output3, X, 188, 0, Z)," & "188 (BC_1, *, control, 0 )," & "189 (BC_1, D(13), output3, X, 190, 0, Z)," & "190 (BC_1, *, control, 0 )," & "191 (BC_4, D(13), observe_only, X )," & "192 (BC_1, A(12), output3, X, 193, 0, Z)," & "193 (BC_1, *, control, 0 )," & "194 (BC_1, D(12), output3, X, 195, 0, Z)," & "195 (BC_1, *, control, 0 )," & "196 (BC_4, D(12), observe_only, X )," & "197 (BC_1, A(11), output3, X, 198, 0, Z)," & "198 (BC_1, *, control, 0 )," & "199 (BC_1, D(11), output3, X, 200, 0, Z)," & "200 (BC_1, *, control, 0 )," & "201 (BC_4, D(11), observe_only, X )," & "202 (BC_1, A(10), output3, X, 203, 0, Z)," & "203 (BC_1, *, control, 0 )," & "204 (BC_1, D(10), output3, X, 205, 0, Z)," & "205 (BC_1, *, control, 0 )," & "206 (BC_4, D(10), observe_only, X )," & "207 (BC_1, A(9), output3, X, 208, 0, Z)," & "208 (BC_1, *, control, 0 )," & "209 (BC_1, D(9), output3, X, 210, 0, Z)," & "210 (BC_1, *, control, 0 )," & "211 (BC_4, D(9), observe_only, X )," & "212 (BC_1, A(8), output3, X, 213, 0, Z)," & "213 (BC_1, *, control, 0 )," & "214 (BC_1, D(8), output3, X, 215, 0, Z)," & "215 (BC_1, *, control, 0 )," & "216 (BC_4, D(8), observe_only, X )," & "217 (BC_1, A(7), output3, X, 218, 0, Z)," & "218 (BC_1, *, control, 0 )," & "219 (BC_1, D(7), output3, X, 220, 0, Z)," & "220 (BC_1, *, control, 0 )," & "221 (BC_4, D(7), observe_only, X )," & "222 (BC_1, A(6), output3, X, 223, 0, Z)," & "223 (BC_1, *, control, 0 )," & "224 (BC_1, D(6), output3, X, 225, 0, Z)," & "225 (BC_1, *, control, 0 )," & "226 (BC_4, D(6), observe_only, X )," & "227 (BC_1, A(5), output3, X, 228, 0, Z)," & "228 (BC_1, *, control, 0 )," & "229 (BC_1, D(5), output3, X, 230, 0, Z)," & "230 (BC_1, *, control, 0 )," & "231 (BC_4, D(5), observe_only, X )," & "232 (BC_1, A(4), output3, X, 233, 0, Z)," & "233 (BC_1, *, control, 0 )," & "234 (BC_1, D(4), output3, X, 235, 0, Z)," & "235 (BC_1, *, control, 0 )," & "236 (BC_4, D(4), observe_only, X )," & "237 (BC_1, A(3), output3, X, 238, 0, Z)," & "238 (BC_1, *, control, 0 )," & "239 (BC_1, D(3), output3, X, 240, 0, Z)," & "240 (BC_1, *, control, 0 )," & "241 (BC_4, D(3), observe_only, X )," & "242 (BC_1, A(2), output3, X, 243, 0, Z)," & "243 (BC_1, *, control, 0 )," & "244 (BC_1, D(2), output3, X, 245, 0, Z)," & "245 (BC_1, *, control, 0 )," & "246 (BC_4, D(2), observe_only, X )," & "247 (BC_1, A(1), output3, X, 248, 0, Z)," & "248 (BC_1, *, control, 0 )," & "249 (BC_1, D(1), output3, X, 250, 0, Z)," & "250 (BC_1, *, control, 0 )," & "251 (BC_4, D(1), observe_only, X )," & "252 (BC_1, A(0), output3, X, 253, 0, Z)," & "253 (BC_1, *, control, 0 )," & "254 (BC_1, D(0), output3, X, 255, 0, Z)," & "255 (BC_1, *, control, 0 )," & "256 (BC_4, D(0), observe_only, X )," & "257 (BC_1, nCS(3), output3, X, 258, 0, Z)," & "258 (BC_1, *, control, 0 )," & "259 (BC_1, nCS(2), output3, X, 260, 0, Z)," & "260 (BC_1, *, control, 0 )," & "261 (BC_1, OSCEN, output3, X, 262, 0, Z)," & "262 (BC_1, *, control, 0 )," & "263 (BC_4, OSCEN, observe_only, X )," & "264 (BC_1, nCS(1), output3, X, 265, 0, Z)," & "265 (BC_1, *, control, 0 )," & "266 (BC_1, nCS(0), output3, X, 267, 0, Z)," & "267 (BC_1, *, control, 0 )," & "268 (BC_4, BOOTWIDTH(1), observe_only,X )," & "269 (BC_4, BOOTWIDTH(0), observe_only,X )," & "270 (BC_1, PD(7), output3, X, 271, 0, Z)," & "271 (BC_1, *, control, 0 )," & "272 (BC_4, PD(7), observe_only, X )," & "273 (BC_1, PD(6), output3, X, 274, 0, Z)," & "274 (BC_1, *, control, 0 )," & "275 (BC_4, PD(6), observe_only, X )," & "276 (BC_1, PD(5), output3, X, 277, 0, Z)," & "277 (BC_1, *, control, 0 )," & "278 (BC_4, PD(5), observe_only, X )," & "279 (BC_1, PD(4), output3, X, 280, 0, Z)," & "280 (BC_1, *, control, 0 )," & "281 (BC_4, PD(4), observe_only, X )," & "282 (BC_1, PD(3), output3, X, 283, 0, Z)," & "283 (BC_1, *, control, 0 )," & "284 (BC_4, PD(3), observe_only, X )," & "285 (BC_1, PD(2), output3, X, 286, 0, Z)," & "286 (BC_1, *, control, 0 )," & "287 (BC_4, PD(2), observe_only, X )," & "288 (BC_1, PD(1), output3, X, 289, 0, Z)," & "289 (BC_1, *, control, 0 )," & "290 (BC_4, PD(1), observe_only, X )," & "291 (BC_1, PD(0), output3, X, 292, 0, Z)," & "292 (BC_1, *, control, 0 )," & "293 (BC_4, PD(0), observe_only, X )," & "294 (BC_1, PE(3), output3, X, 295, 0, Z)," & "295 (BC_1, *, control, 0 )," & "296 (BC_4, PE(3), observe_only, X )," & "297 (BC_1, PE(2), output3, X, 298, 0, Z)," & "298 (BC_1, *, control, 0 )," & "299 (BC_4, PE(2), observe_only, X )," & "300 (BC_1, PE(1), output3, X, 301, 0, Z)," & "301 (BC_1, *, control, 0 )," & "302 (BC_4, PE(1), observe_only, X )," & "303 (BC_1, LCDDCLK,output3, X, 304, 0, Z)," & "304 (BC_1, *, control, 0 )," & "305 (BC_1, LCDM, output3, X, 306, 0, Z)," & "306 (BC_1, *, control, 0 )," & "307 (BC_1, LCDLP, output3, X, 308, 0, Z)," & "308 (BC_1, *, control, 0 )," & "309 (BC_1, PE(0), output3, X, 310, 0, Z)," & "310 (BC_1, *, control, 0 )," & "311 (BC_4, PE(0), observe_only, X )," & "312 (BC_1, LCDVD(3),output3, X, 313, 0, Z)," & "313 (BC_1, *, control, 0 )," & "314 (BC_1, LCDVD(2),output3, X, 315, 0, Z)," & "315 (BC_1, *, control, 0 )," & "316 (BC_1, LCDVD(1),output3, X, 317, 0, Z)," & "317 (BC_1, *, control, 0 )," & "318 (BC_1, LCDVD(0),output3, X, 319, 0, Z)," & "319 (BC_1, *, control, 0 )," & "320 (BC_1, LCDFP, output3, X, 321, 0, Z)," & "321 (BC_1, *, control, 0 )," & "322 (BC_1, PH(7), output3, X, 323, 0, Z)," & "323 (BC_1, *, control, 0 )," & "324 (BC_4, PH(7), observe_only, X )," & "325 (BC_1, PH(6), output3, X, 326, 0, Z)," & "326 (BC_1, *, control, 0 )," & "327 (BC_4, PH(6), observe_only, X )," & "328 (BC_1, PH(5), output3, X, 329, 0, Z)," & "329 (BC_1, *, control, 0 )," & "330 (BC_4, PH(5), observe_only, X )," & "331 (BC_1, PH(4), output3, X, 332, 0, Z)," & "332 (BC_1, *, control, 0 )," & "333 (BC_4, PH(4), observe_only, X )," & "334 (BC_1, PH(3), output3, X, 335, 0, Z)," & "335 (BC_1, *, control, 0 )," & "336 (BC_4, PH(3), observe_only, X )," & "337 (BC_1, PH(2), output3, X, 338, 0, Z)," & "338 (BC_1, *, control, 0 )," & "339 (BC_4, PH(2), observe_only, X )," & "340 (BC_1, PH(1), output3, X, 341, 0, Z)," & "341 (BC_1, *, control, 0 )," & "342 (BC_4, PH(1), observe_only, X )," & "343 (BC_1, PH(0), output3, X, 344, 0, Z)," & "344 (BC_1, *, control, 0 )," & "345 (BC_4, PH(0), observe_only, X )," & "346 (BC_1, PG(7), output3, X, 347, 0, Z)," & "347 (BC_1, *, control, 0 )," & "348 (BC_4, PG(7), observe_only, X )," & "349 (BC_1, PG(6), output3, X, 350, 0, Z)," & "350 (BC_1, *, control, 0 )," & "351 (BC_4, PG(6), observe_only, X )," & "352 (BC_1, PG(5), output3, X, 353, 0, Z)," & "353 (BC_1, *, control, 0 )," & "354 (BC_4, PG(5), observe_only, X )," & "355 (BC_1, PG(4), output3, X, 356, 0, Z)," & "356 (BC_1, *, control, 0 )," & "357 (BC_4, PG(4), observe_only, X )," & "358 (BC_1, PG(3), output3, X, 359, 0, Z)," & "359 (BC_1, *, control, 0 )," & "360 (BC_4, PG(3), observe_only, X )," & "361 (BC_1, PG(2), output3, X, 362, 0, Z)," & "362 (BC_1, *, control, 0 )," & "363 (BC_4, PG(2), observe_only, X )," & "364 (BC_1, PG(1), output3, X, 365, 0, Z)," & "365 (BC_1, *, control, 0 )," & "366 (BC_4, PG(1), observe_only, X )," & "367 (BC_1, PG(0), output3, X, 368, 0, Z)," & "368 (BC_1, *, control, 0 )," & "369 (BC_4, PG(0), observe_only, X )," & "370 (BC_1, PC(7), output3, X, 371, 0, Z)," & "371 (BC_1, *, control, 0 )," & "372 (BC_4, PC(7), observe_only, X )," & "373 (BC_1, PC(6), output3, X, 374, 0, Z)," & "374 (BC_1, *, control, 0 )," & "375 (BC_4, PC(6), observe_only, X )," & "376 (BC_1, PC(5), output3, X, 377, 0, Z)," & "377 (BC_1, *, control, 0 )," & "378 (BC_4, PC(5), observe_only, X )," & "379 (BC_1, PC(4), output3, X, 380, 0, Z)," & "380 (BC_1, *, control, 0 )," & "381 (BC_4, PC(4), observe_only, X )," & "382 (BC_1, PC(3), output3, X, 383, 0, Z)," & "383 (BC_1, *, control, 0 )," & "384 (BC_4, PC(3), observe_only, X )," & "385 (BC_1, PC(2), output3, X, 386, 0, Z)," & "386 (BC_1, *, control, 0 )," & "387 (BC_4, PC(2), observe_only, X )," & "388 (BC_1, PC(1), output3, X, 389, 0, Z)," & "389 (BC_1, *, control, 0 )," & "390 (BC_4, PC(1), observe_only, X )," & "391 (BC_1, PC(0), output3, X, 392, 0, Z)," & "392 (BC_1, *, control, 0 )," & "393 (BC_4, PC(0), observe_only,X )," & "394 (BC_1, PB(7), output3, X, 395, 0, Z)," & "395 (BC_1, *, control, 0 )," & "396 (BC_4, PB(7), observe_only, X )," & "397 (BC_1, PB(6), output3, X, 398, 0, Z)," & "398 (BC_1, *, control, 0 )," & "399 (BC_4, PB(6), observe_only, X )," & "400 (BC_1, PB(5), output3, X, 401, 0, Z)," & "401 (BC_1, *, control, 0 )," & "402 (BC_4, PB(5), observe_only, X )," & "403 (BC_1, PB(4), output3, X, 404, 0, Z)," & "404 (BC_1, *, control, 0 )," & "405 (BC_4, PB(4), observe_only, X )," & "406 (BC_1, PB(3), output3, X, 407, 0, Z)," & "407 (BC_1, *, control, 0 )," & "408 (BC_4, PB(3), observe_only, X )," & "409 (BC_1, PB(2), output3, X, 410, 0, Z)," & "410 (BC_1, *, control, 0 )," & "411 (BC_4, PB(2), observe_only, X )," & "412 (BC_1, PB(1), output3, X, 413, 0, Z)," & "413 (BC_1, *, control, 0 )," & "414 (BC_4, PB(1), observe_only, X )," & "415 (BC_1, PB(0), output3, X, 416, 0, Z)," & "416 (BC_1, *, control, 0 )," & "417 (BC_4, PB(0), observe_only, X )," & "418 (BC_1, PA(7), output3, X, 419, 0, Z)," & "419 (BC_1, *, control, 0 )," & "420 (BC_4, PA(7), observe_only, X )," & "421 (BC_1, PA(6), output3, X, 422, 0, Z)," & "422 (BC_1, *, control, 0 )," & "423 (BC_4, PA(6), observe_only, X )," & "424 (BC_1, PA(5), output3, X, 425, 0, Z)," & "425 (BC_1, *, control, 0 )," & "426 (BC_4, PA(5), observe_only, X )," & "427 (BC_1, PA(4), output3, X, 428, 0, Z)," & "428 (BC_1, *, control, 0 )," & "429 (BC_4, PA(4), observe_only, X )," & "430 (BC_1, PA(3), output3, X, 431, 0, Z)," & "431 (BC_1, *, control, 0 )," & "432 (BC_4, PA(3), observe_only, X )," & "433 (BC_1, PA(2), output3, X, 434, 0, Z)," & "434 (BC_1, *, control, 0 )," & "435 (BC_4, PA(2), observe_only, X )," & "436 (BC_1, PA(1), output3, X, 437, 0, Z)," & "437 (BC_1, *, control, 0 )," & "438 (BC_4, PA(1), observe_only, X )," & "439 (BC_1, PA(0), output3, X, 440, 0, Z)," & "440 (BC_1, *, control, 0 )," & "441 (BC_4, PA(0), observe_only, X )," & "442 (BC_1, SSPFRM, output3, X, 443, 0, Z)," & "443 (BC_1, *, control, 0 )," & "444 (BC_1, SSPTX, output3, X, 445, 0, Z)," & "445 (BC_1, *, control, 0 )," & "446 (BC_1, SSPRX, output3, X, 447, 0, Z)," & "447 (BC_1, *, control, 0 )," & "448 (BC_4, SSPRX, observe_only, X )," & "449 (BC_1, PGMCLK, output3, X, 450, 0, Z)," & "450 (BC_1, *, control, 0 )," & "451 (BC_1, SSPCLK, output3, X, 452, 0, Z)," & "452 (BC_1, *, control, 0 )," & "453 (BC_1, BUZ, output3, X, 454, 0, Z)," & "454 (BC_1, *, control, 0 )," & "455 (BC_4, BUZ, observe_only, X )," & "456 (BC_1, COL(7), output3, X, 457, 0, Z)," & "457 (BC_1, *, control, 0 )," & "458 (BC_4, COL(7), observe_only, X )," & "459 (BC_1, COL(6), output3, X, 460, 0, Z)," & "460 (BC_1, *, control, 0 )," & "461 (BC_4, COL(6), observe_only, X )," & "462 (BC_1, COL(5), output3, X, 463, 0, Z)," & "463 (BC_1, *, control, 0 )," & "464 (BC_4, COL(5), observe_only, X )," & "465 (BC_1, COL(4), output3, X, 466, 0, Z)," & "466 (BC_1, *, control, 0 )," & "467 (BC_4, COL(4), observe_only, X )," & "468 (BC_1, COL(3), output3, X, 469, 0, Z)," & "469 (BC_1, *, control, 0 )," & "470 (BC_4, COL(3), observe_only, X )," & "471 (BC_1, COL(2), output3, X, 472, 0, Z)," & "472 (BC_1, *, control, 0 )," & "473 (BC_4, COL(2), observe_only, X )," & "474 (BC_1, COL(1), output3, X, 475, 0, Z)," & "475 (BC_1, *, control, 0 )," & "476 (BC_4, COL(1), observe_only, X )," & "477 (BC_1, COL(0), output3, X, 478, 0, Z)," & "478 (BC_1, *, control, 0 )," & "479 (BC_4, COL(0), observe_only, X )," & "480 (BC_1, UARTRXD2,output3, X, 481, 0, Z)," & "481 (BC_1, *, control, 0 )," & "482 (BC_4, UARTRXD2,observe_only, X )," & "483 (BC_1, UARTTXD2,output3, X, 484, 0, Z)," & "484 (BC_1, *, control, 0 )," & "485 (BC_4, UARTTXD2,observe_only, X )," & "486 (BC_1, IRRX2, output3, X, 487, 0, Z)," & "487 (BC_1, *, control, 0 )," & "488 (BC_4, IRRX2, observe_only, X )," & "489 (BC_1, IRTX2, output3, X, 490, 0, Z)," & "490 (BC_1, *, control, 0 )," & "491 (BC_4, IRTX2, observe_only, X )," & "492 (BC_1, UARTDSR2,output3, X, 493, 0, Z)," & "493 (BC_1, *, control, 0 )," & "494 (BC_4, UARTDSR2,observe_only, X )," & "495 (BC_4, nPWRFL, observe_only, X )," & "496 (BC_1, UARTDCD2,output3, X, 497, 0, Z)," & "497 (BC_1, *, control, 0 )," & "498 (BC_4, UARTDCD2,observe_only, X )," & "499 (BC_1, UARTCTS2,output3, X, 500, 0, Z)," & "500 (BC_1, *, control, 0 )," & "501 (BC_4, UARTCTS2,observe_only, X )," & "502 (BC_4, WAKEUP, observe_only, X )," & "503 (BC_4, nBATCHG,observe_only, X )," & "504 (BC_4, BATOK, observe_only, X )," & "505 (BC_4, MEDCHG, observe_only, X )," & "506 (BC_4, nEXTPWR,observe_only, X )"; end LH7A400;