BSDL Files Library for JTAG

The only free public library that contains thousands of BSDL (Boundary Scan Description Language) models to use with BScan/JTAG tools

BSDL model: LH7A400

-----------------------------------------------------------------------
-- 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;