// 2000 RADIOS
// 2000 Icom
// 2100 COM 1
// 2200 COM 2
// 2300 NAV 1
// 2400 NAV 2
// 2500 LCD
// 2600 GPS
// 2700 XPD
// 2800 ADF
// 2860 EFIS
// 2900 display & leds
// 2000 INTERCOM
// * FS Icom Offset *
Var 2010, name fs_icom, Link FSUIPC_INOUT, Offset $3122, Length 1, VALUE 128 // 0=adf, 1=dme, 2=mkr, 3=nav2, 4=nav1; 5=both, 6=com2, 7=com1
{
CALL &avionicsys
}
// * Intercom Switches *
Var 2020, name ic_com1, Link IOCARD_SW, Input 218, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_com1 = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 7 &ic_com1 // swap between com1-com2 mode
&fs_icom = CHANGEBITN 6 &ic_com2
}
Var 2024, name ic_com2, Link IOCARD_SW, Input 220, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_com2 = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 6 &ic_com2
&fs_icom = CHANGEBITN 7 &ic_com2
}
Var 2026, name ic_both, Link IOCARD_SW, Input 217 // both used for testradio
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_both = 1
IF C0
{
&sound = 131
}
// &fs_icom = CHANGEBIT 5 &ic_both
}
Var 2028, name ic_nav1, Link IOCARD_SW, Input 219, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_nav1 = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 4 &ic_nav1
}
Var 2030, name ic_nav2, Link IOCARD_SW, Input 226, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_nav2 = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 3 &ic_nav2
}
Var 2032, name ic_mkr, Link IOCARD_SW, Input 227, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_mkr = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 2 &ic_mkr
}
Var 2034, name ic_dme, Link IOCARD_SW, Input 229, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_dme = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 1 &ic_dme
}
Var 2036, name ic_adf, Link IOCARD_SW, Input 228, TYPE P
{
C0 = &fs_avbusvolt > 1700
C1 = &ic_adf = 1
IF C0
{
&sound = 117
}
&fs_icom = CHANGEBIT 0 &ic_adf
}
// 2100 COM 1
Var 2120, name fs_swap, Link FSUIPC_OUT, Offset $3123, Length 1 // FS RADIO active standby swap bits: 0=nav2, 1=nav1, 2=com2, 3=com1
Var 2121, name fs_C1sb_bcd, Link FSUIPC_INOUT, Offset $311A, Length 2 // FS COM1 standby frequency in BCD format
{
&d_c1sb_1 = 1
&d_c1ac_1 = 1
}
Var 2122, name fs_c1ac_bcd, Link FSUIPC_IN, Offset $034E, Length 2 // FS COM1 active frequency in BCD format
{
&d_c1ac = FROMBCD &fs_c1ac_bcd // Update C1 active freq display (4 digits)
CALL &c1int_rotval // Align rotary with new C1 SB integer val
CALL &c1dec_rotval // Align rotary with new C1 SB decimal val
CALL &c1upd_int
CALL &c1upd_dec
}
Var 2126, name C1_SB_AS_DEC // COM1 standby frequency in decimal format
Var 2128, name c1sb_int // COM1 standby frequency integers
Var 2130, name c1sb_dec // COM1 standby frequency decimals
Var 2132, name c1int_value // COM1 left hand rotary encoder ref value
Var 2134, name c1dec_value // COM1 right hand rotary encoder ref value
Var 2136, name ec_c1int, Link IOCARD_ENCODER, Input 230, Aceleration 2, Type 2 // INTEGRER
{
&c1int_value = ROTATE 18 ,36 ,&ec_c1int
CALL &c1upd_int
CALL &setfs_c1sb
}
Var 2138, name ec_c1dec, Link IOCARD_ENCODER, Input 232, Aceleration 2, Type 2 // DECIMAL
{
&c1dec_value = ROTATE 0 ,39 ,&ec_c1dec
CALL &c1upd_dec
CALL &setfs_c1sb
}
Var 2140, name sw_c1_swap, Link IOCARD_SW, Input 236
{
&fs_swap = TOGGLE 3
}
Var 2142, name d_c1sb_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2144, name d_c1sb_int // Standby integers
{
CALL &avionicsys
}
Var 2148, name d_c1sb_dec // Standby decimals
{
CALL &avionicsys
}
Var 2150, name d_c1ac_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2152, name d_c1ac
{
CALL &avionicsys
}
Var 2154, name c1int_rotval, Link SUBRUTINE // Aligns LH rotary ref with COM1 SB freq
{
L0 = FROMBCD &fs_c1sb_bcd
L1 = L0 / 100
&c1int_value = TRUNC L1
}
Var 2156, name c1dec_rotval, Link SUBRUTINE // Aligns RH rotary ref with COM1 SB freq
{
L0 = FROMBCD &fs_c1sb_bcd
L1 = &c1int_value * 100
L2 = L0 - L1
&c1dec_value = L2 / 2.487179
}
Var 2158, name c1upd_int, Link SUBRUTINE // Update COM1 stanby integers
{
&d_c1sb_int = &c1int_value // Set COM1 standby integer display
&c1sb_int = &c1int_value
}
Var 2160, name c1upd_dec, Link SUBRUTINE // Update COM1 standby decimals
{
L0 = &c1dec_value * 2.5
&c1sb_dec = TRUNC L0
&d_c1sb_dec = &c1sb_dec
}
Var 2162, name setfs_c1sb, Link SUBRUTINE // Update COM1 standby frequency in FS
{
L0 = &c1sb_int * 100
L1 = L0 + &c1sb_dec
&fs_c1sb_bcd = TOBCD L1
}
// 2200 COM 2
Var 2220, name fs_C2sb_bcd, Link FSUIPC_INOUT, Offset $311c, Length 2 // FS COM2 standby frequency in BCD format
{
&d_c2sb_1 = 1
&d_c2ac_1 = 1
}
Var 2222, name fs_c2ac_bcd, Link FSUIPC_INOUT, Offset $3118, Length 2 // FS COM2 active frequency in BCD format
{
&d_c2ac = FROMBCD &fs_c2ac_bcd // Update C2 active freq display (4 digits)
CALL &c2int_rotval // Align rotary with new C2 SB integer val
CALL &c2dec_rotval // Align rotary with new C2 SB decimal val
CALL &c2upd_int
CALL &c2upd_dec
}
Var 2224, name C2_SB_AS_DEC // COM2 standby frequency in decimal format
Var 2226, name c2sb_int // COM2 standby frequency integers
Var 2228, name c2sb_dec // COM2 standby frequency decimals
Var 2230, name c2int_value // COM2 left hand rotary encoder ref value
Var 2232, name c2dec_value // COM2 right hand rotary encoder ref value
Var 2234, name ec_c2int, Link IOCARD_ENCODER, Input 248, Aceleration 2, Type 2 // INTEGRER
{
&c2int_value = ROTATE 18 ,36 ,&ec_c2int
CALL &c2upd_int
CALL &setfs_c2sb
}
Var 2236, name ec_c2dec, Link IOCARD_ENCODER, Input 250, Aceleration 2, Type 2 // DECIMAL
{
&c2dec_value = ROTATE 0 ,39 ,&ec_c2dec
CALL &c2upd_dec
CALL &setfs_c2sb
}
Var 2238, name d_c2sb_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2240, name d_c2sb_int // Standby integers
{
CALL &avionicsys
}
Var 2242, name d_c2sb_dec // Standby decimals
{
CALL &avionicsys
}
Var 2244, name d_c2ac_1 // UNUSED
{
CALL &avionicsys
}
Var 2246, name d_c2ac // UNUSED
{
CALL &avionicsys
}
Var 2248, name c2int_rotval, Link SUBRUTINE // Aligns LH rotary ref with COM1 SB freq
{
L0 = FROMBCD &fs_c2sb_bcd
L1 = L0 / 100
&c2int_value = TRUNC L1
}
Var 2250, name c2dec_rotval, Link SUBRUTINE // Aligns RH rotary ref with COM1 SB freq
{
L0 = FROMBCD &fs_c2sb_bcd
L1 = &c2int_value * 100
L2 = L0 - L1
&c2dec_value = L2 / 2.487179
}
Var 2252, name c2upd_int, Link SUBRUTINE // Update COM2 stanby integers
{
&d_c2sb_int = &c2int_value // Set COM2 standby integer display
&c2sb_int = &c2int_value
}
Var 2254, name c2upd_dec, Link SUBRUTINE // Update COM2 standby decimals
{
L0 = &c2dec_value * 2.5
&c2sb_dec = TRUNC L0
&d_c2sb_dec = &c2sb_dec
}
Var 2256, name setfs_c2sb, Link SUBRUTINE // Update COM2 standby frequency in FS
{
L0 = &c2sb_int * 100
L1 = L0 + &c2sb_dec
&fs_c2sb_bcd = TOBCD L1
&fs_C2ac_bcd = &fs_C2sb_bcd
}
// 2300 NAV 1
Var 2320, name fs_n1sb_bcd, Link FSUIPC_INOUT, Offset $311e, Length 2 // FS NAV1 standby frequency in BCD format
{
&d_n1sb_1 = 1
&d_n1ac_1 = 1
}
Var 2322, name fs_n1ac_bcd, Link FSUIPC_IN, Offset $0350, Length 2 // FS NAV1 active frequency in BCD format
{
&d_n1ac = FROMBCD &fs_n1ac_bcd // Update N1 active freq display (4 digits)
CALL &n1int_rotval // Align rotary with new N1 SB integer val
CALL &n1dec_rotval // Align rotary with new N1 SB decimal val
CALL &n1upd_int
CALL &n1upd_dec
}
Var 2326, name n1_SB_AS_DEC // NAV1 standby frequency in decimal format
Var 2328, name n1sb_int // NAV1 standby frequency integers
Var 2330, name n1sb_dec // NAV1 standby frequency decimals
Var 2332, name n1int_value // NAV1 left hand rotary encoder ref value
Var 2334, name n1dec_value // NAV1 right hand rotary encoder ref value
Var 2336, name ec_n1int, Link IOCARD_ENCODER, Input 221, Aceleration 2, Type 2 // INTEGRER
{
L0 = &ec_n1int * -1
&n1int_value = ROTATE 8 ,17 ,L0
CALL &n1upd_int
CALL &setfs_n1sb
}
Var 2338, name ec_n1dec, Link IOCARD_ENCODER, Input 223, Aceleration 2, Type 2 // DECIMAL
{
&n1dec_value = ROTATE 0 ,39 ,&ec_n1dec
CALL &n1upd_dec
CALL &setfs_n1sb
}
Var 2340, name sw_n1_swap, Link IOCARD_SW, Input 235 // bits: 0=nav2, 1=nav1, 2=com2, 3=com1
{
&fs_swap = TOGGLE 1
}
Var 2342, name d_n1sb_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2344, name d_n1sb_int // Standby integers
{
CALL &avionicsys
}
Var 2346, name d_n1sb_dec // Standby decimals
{
CALL &avionicsys
}
Var 2348, name d_n1ac_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2350, name d_n1ac
{
CALL &avionicsys
}
Var 2352, name n1int_rotval, Link SUBRUTINE // Aligns int rotary ref with NAV1 SB freq
{
L0 = FROMBCD &fs_n1sb_bcd
L1 = L0 / 100
&n1int_value = TRUNC L1
}
Var 2354, name n1dec_rotval, Link SUBRUTINE // Aligns dec rotary ref with NAV1 SB freq
{
L0 = FROMBCD &fs_n1sb_bcd
L1 = &n1int_value * 100
L2 = L0 - L1
&n1dec_value = L2 / 2.487179
}
Var 2356, name n1upd_int, Link SUBRUTINE // Update NAV1 stanby integers
{
&d_n1sb_int = &n1int_value // Set NAV1 standby integer display
&n1sb_int = &n1int_value
}
Var 2358, name n1upd_dec, Link SUBRUTINE // Update NAV1 standby decimals
{
L0 = &n1dec_value * 2.5
&n1sb_dec = TRUNC L0
&d_n1sb_dec = &n1sb_dec
}
Var 2360, name setfs_n1sb, Link SUBRUTINE // Update NAV1 standby frequency in FS
{
L0 = &n1sb_int * 100
L1 = L0 + &n1sb_dec
&fs_n1sb_bcd = TOBCD L1
}
// 2400 NAV 2
Var 2420, name fs_n2sb_bcd, Link FSUIPC_INOUT, Offset $3120, Length 2 // FS NAV2 standby frequency in BCD format
{
&d_n2sb_1 = 1
&d_n2ac_1 = 1
}
Var 2422, name fs_n2ac_bcd, Link FSUIPC_INOUT, Offset $0352, Length 2 // FS NAV2 active frequency in BCD format
{
&d_n2ac = FROMBCD &fs_n2ac_bcd // Update N2 active freq display (4 digits)
CALL &n2int_rotval // Align rotary with new N2 SB integer val
CALL &n2dec_rotval // Align rotary with new N2 SB decimal val
CALL &n2upd_int
CALL &n2upd_dec
}
Var 2424, name n2_SB_AS_DEC // NAV2 standby frequency in decimal format
Var 2426, name n2sb_int // NAV2 standby frequency integers
Var 2428, name n2sb_dec // NAV2 standby frequency decimals
Var 2430, name n2int_value // NAV2 left hand rotary encoder ref value
Var 2432, name n2dec_value // NAV2 right hand rotary encoder ref value
Var 2434, name ec_n2int, Link IOCARD_ENCODER, Input 241, Aceleration 2, Type 2 // INTEGRER
{
L0 = &ec_n2int * -1
&n2int_value = ROTATE 8 ,17 ,L0
CALL &n2upd_int
CALL &setfs_n2sb
}
Var 2436, name ec_n2dec, Link IOCARD_ENCODER, Input 239, Aceleration 2, Type 2 // DECIMAL
{
L0 = &ec_n2dec * -1
&n2dec_value = ROTATE 0 ,39 ,L0
CALL &n2upd_dec
CALL &setfs_n2sb
}
Var 2438, name d_n2sb_1 // Initial digit 1. Delete if hard wired
{
CALL &avionicsys
}
Var 2440, name d_n2sb_int // Standby integers
{
CALL &avionicsys
}
Var 2442, name d_n2sb_dec // Standby decimals
{
CALL &avionicsys
}
Var 2444, name d_n2ac_1 // UNUSED
{
CALL &avionicsys
}
Var 2446, name d_n2ac // UNUSED
{
CALL &avionicsys
}
Var 2448, name n2int_rotval, Link SUBRUTINE // Aligns int rotary ref with NAV2 SB freq
{
L0 = FROMBCD &fs_n2sb_bcd
L1 = L0 / 100
&n2int_value = TRUNC L1
}
Var 2450, name n2dec_rotval, Link SUBRUTINE // Aligns dec rotary ref with NAV2 SB freq
{
L0 = FROMBCD &fs_n2sb_bcd
L1 = &n2int_value * 100
L2 = L0 - L1
&n2dec_value = L2 / 2.487179
}
Var 2452, name n2upd_int, Link SUBRUTINE // Update NAV2 stanby integers
{
&d_n2sb_int = &n2int_value // Set NAV2 standby integer display
&n2sb_int = &n2int_value
}
Var 2454, name n2upd_dec, Link SUBRUTINE // Update NAV2 standby decimals
{
L0 = &n2dec_value * 2.5
&n2sb_dec = TRUNC L0
&d_n2sb_dec = &n2sb_dec
}
Var 2456, name setfs_n2sb, Link SUBRUTINE // Update NAV2 standby frequency in FS
{
L0 = &n2sb_int * 100
L1 = L0 + &n2sb_dec
&fs_n2sb_bcd = TOBCD L1
&fs_n2ac_bcd = &fs_n2sb_bcd
}
// 2500 LCD Multi-Display
// * LCD System *
//
// values 0=off 1=ACT 2=VOR 3=GPS 4=ADF 5=FUEL
// 6=ELE1 7=ELE2 8=MET 9=(A/P) 10=(ENG) 11=
// 12=EMER 13=crash 14=pause
Var 2510, name fs_lcd, Link FSUIPC_OUT, Offset $6620, Length 1, VALUE 0 // FSLCD LCD 1 multi display RW
// * LCD selector *
Var 2530, name lcdsys LINK SUBRUTINE
{
&fs_lcd = &lcdsys
}
Var 2532, name lcd_adf, Link IOCARD_SW, Input 269
{
IF &lcd_adf = 1
{
CALL &lcdsys 4
}
}
Var 2534, name lcd_vor, Link IOCARD_SW, Input 268
{
IF &lcd_vor = 1
{
CALL &lcdsys 2
}
}
Var 2536, name lcd_gps, Link IOCARD_SW, Input 261
{
IF &lcd_gps = 1
{
CALL &lcdsys 3
}
}
Var 2538, name lcd_actf, Link IOCARD_SW, Input 267
{
IF &lcd_actf = 1
{
CALL &lcdsys 1
}
}
Var 2540, name lcd_fuel, Link IOCARD_SW, Input 266
{
IF &lcd_fuel = 1
{
CALL &lcdsys 5
}
}
Var 2542, name lcd_meteo, Link IOCARD_SW, Input 262
{
IF &lcd_meteo = 1
{
CALL &lcdsys 8
}
}
Var 2544, name lcd_elec1, Link IOCARD_SW, Input 263
{
IF &lcd_elec1 = 1
{
CALL &lcdsys 6
}
}
Var 2546, name lcd_elec2, Link IOCARD_SW, Input 265
{
IF &lcd_elec2 = 1
{
CALL &lcdsys 7
}
}
Var 2548, name lcd_emer, Link IOCARD_SW, Input 264
{
IF &lcd_emer = 1
{
CALL &lcdsys 12
}
}
// Send values to LCD MULTI-DISPLAY
Var 2551, name lcd_pc_lm, Link FSUIPC_OUT, Offset $7200, Length 2
Var 2552, name lcd_pc_rm, Link FSUIPC_OUT, Offset $7202, Length 2
Var 2553, name lcd_pc_la, Link FSUIPC_OUT, Offset $7204, Length 2
Var 2554, name lcd_pc_ra, Link FSUIPC_OUT, Offset $7206, Length 2
Var 2555, name lcd_ql_lm, Link FSUIPC_OUT, Offset $7208, Length 2
Var 2556, name lcd_ql_rm, Link FSUIPC_OUT, Offset $7210, Length 2
Var 2557, name lcd_ql_la, Link FSUIPC_OUT, Offset $7212, Length 2
Var 2558, name lcd_ql_ra, Link FSUIPC_OUT, Offset $7214, Length 2
Var 2559, name lcd_ql_tot, Link FSUIPC_OUT, Offset $7216, Length 2
Var 2560, name lcd_ff, Link FSUIPC_OUT, Offset $7218, Length 2
Var 2561, name lcd_ftime, Link FSUIPC_OUT, Offset $7220, Length 2
Var 2562, name lcd_winddir, Link FSUIPC_OUT, Offset $7222, Length 2
Var 2563, name lcd_windspd, Link FSUIPC_OUT, Offset $7224, Length 2
Var 2564, name lcd_qnh, Link FSUIPC_OUT, Offset $7226, Length 2
Var 2565, name lcd_oat, Link FSUIPC_OUT, Offset $7228, Length 2
Var 2566, name lcd_dew, Link FSUIPC_OUT, Offset $7230, Length 2
Var 2567, name lcd_visi, Link FSUIPC_OUT, Offset $7232, Length 2
Var 2568, name lcd_iceup, Link FSUIPC_OUT, Offset $7234, Length 2
Var 2569, name lcd_icelw, Link FSUIPC_OUT, Offset $7236, Length 2
Var 2570, name lcd_icets, Link FSUIPC_OUT, Offset $7238, Length 2
Var 2571, name lcd_icecu, Link FSUIPC_OUT, Offset $7240, Length 2
Var 2572, name lcd_battamps, Link FSUIPC_OUT, Offset $7242, Length 2
Var 2573, name lcd_masstot, Link FSUIPC_OUT, Offset $7244, Length 2
Var 2574, name lcd_fuelmass, Link FSUIPC_OUT, Offset $7246, Length 2
Var 2577, name fsl_winddir, Link FSUIPC_IN, Offset $0e92 , Length 2
{
L0 = &fsl_winddir * 360
L0 = L0 / 65536
L0 = LIMIT 0 360 0
&lcd_winddir = L0
}
Var 2578, name fsl_windspd, Link FSUIPC_IN, Offset $0e90 , Length 2
{
L0 = &fsl_windspd
L0 = LIMIT 0 99 0
&lcd_windspd = L0
}
Var 2579, name fsl_qnh, Link FSUIPC_IN, Offset $0f48 , Length 2
{
L0 = &fsl_qnh
L0 = L0 / 16
L0 = LIMIT 0 9999 0
&lcd_qnh = L0
}
Var 2580, name fsl_oat, Link FSUIPC_IN, Offset $0e8c , Length 2, Type 1
{
L0 = &fsl_oat
L0 = L0 / 256
L0 = TRUNC L0
L0 = LIMIT -99 99 0
&lcd_oat = L0
}
Var 2581, name fsl_dew, Link FSUIPC_IN, Offset $04c8 , Length 2, Type 1
{
L0 = &fsl_dew
L0 = L0 / 256
L0 = TRUNC L0
L0 = LIMIT -99 99 0
&lcd_dew = L0
}
Var 2582, name fsl_visi, Link FSUIPC_IN, Offset $0e8a , Length 2
{
L0 = &fsl_visi
L0 = L0 / 100
L0 = L0 * 1.6093
L0 = TRUNC L0
L0 = LIMIT 0 20 0
&lcd_visi = L0
}
Var 2583, name fsl_iceup, Link FSUIPC_IN, Offset $0f7c , Length 2
{
&lcd_iceup = &fsl_iceup
}
Var 2584, name fsl_icelw, Link FSUIPC_IN, Offset $0f82 , Length 2
{
&lcd_icelw = &fsl_icelw
}
Var 2585, name fsl_icets, Link FSUIPC_IN, Offset $0f88 , Length 2
{
&lcd_icets = &fsl_icets
}
Var 2586, name fsl_icecu, Link FSUIPC_IN, Offset $c289 , Length 1
{
&lcd_icecu = &fsl_icecu
}
// Var 2587, name fsl_lff, Link FSUIPC_IN, Offset $ , Length
// Var 2588, name fsl_rff, Link FSUIPC_IN, Offset $ , Length
Var 2589, name fsl_masstot, Link FSUIPC_IN, Offset $30c0 , Length 8, Numbers 0
{
L0 = &fsl_masstot * 0.45359
&lcd_masstot = TRUNC L0
}
// 2600 GPS remote control
// * FS GPS Offsets *
Var 2610, Name oi_gps_pow, Link IOCP, Offset 1120, Device 0
Var 2612, Name oi_gps_nea, Link IOCP, Offset 1121, Device 0
Var 2614, Name oi_gps_obs, Link IOCP, Offset 1122, Device 0
Var 2616, Name oi_gps_msg, Link IOCP, Offset 1123, Device 0
Var 2618, Name oi_gps_fpl, Link IOCP, Offset 1124, Device 0
Var 2620, Name oi_gps_nav, Link IOCP, Offset 1125, Device 0
Var 2622, Name oi_gps_ter, Link IOCP, Offset 1126, Device 0
Var 2624, Name oi_gps_pro, Link IOCP, Offset 1127, Device 0
Var 2626, Name oi_gps_set, Link IOCP, Offset 1128, Device 0
Var 2628, Name oi_gps_act, Link IOCP, Offset 1129, Device 0
Var 2630, Name oi_gps_zin, Link IOCP, Offset 1130, Device 0
Var 2632, Name oi_gps_zou, Link IOCP, Offset 1131, Device 0
Var 2634, Name oi_gps_dto, Link IOCP, Offset 1132, Device 0
Var 2636, Name oi_gps_men, Link IOCP, Offset 1133, Device 0
Var 2638, Name oi_gps_clr, Link IOCP, Offset 1134, Device 0
Var 2640, Name oi_gps_ent, Link IOCP, Offset 1135, Device 0
Var 2642, Name oi_gps_sel, Link IOCP, Offset 1136, Device 0
Var 2644, Name oi_gps_gup, Link IOCP, Offset 1137, Device 0
Var 2646, Name oi_gps_gdw, Link IOCP, Offset 1138, Device 0
Var 2648, Name oi_gps_pup, Link IOCP, Offset 1139, Device 0
Var 2650, Name oi_gps_pdw, Link IOCP, Offset 1140, Device 0
Var 2660, name gps_zou, Link IOCARD_SW, Input 253 // GPS zoom
{
IF &gps_zou = 1
{
&oi_gps_zou = CHANGEBITN 0 &oi_gps_zou
}
}
Var 2662, name gps_zin, Link IOCARD_SW, Input 254
{
IF &gps_zin = 1
{
&oi_gps_zin = CHANGEBITN 0 &oi_gps_zin
}
}
Var 2670, name gps_pag, Link IOCARD_ENCODER, Input 282, Aceleration 2, Type 2 // GPS encoder
{
IF &gps_pag > 0
{
&oi_gps_pup = CHANGEBITN 0 &oi_gps_pup
}
IF &gps_pag < 0
{
&oi_gps_pdw = CHANGEBITN 0 &oi_gps_pdw
}
}
Var 2672, name gps_grp, Link IOCARD_ENCODER, Input 280, Aceleration 2, Type 2
{
IF &gps_grp > 0
{
&oi_gps_gup = CHANGEBITN 0 &oi_gps_gup
}
IF &gps_grp < 0
{
&oi_gps_gdw = CHANGEBITN 0 &oi_gps_gdw
}
}
Var 2680, name gps_dto, Link IOCARD_SW, Input 260 // GPS buttons
{
IF &gps_dto = 1
{
&oi_gps_dto = CHANGEBITN 0 &oi_gps_dto
}
}
Var 2681, name gps_nea, Link IOCARD_SW, Input 252
{
IF &gps_nea = 1
{
&oi_gps_nea = CHANGEBITN 0 &oi_gps_nea
}
}
Var 2682, name gps_obs, Link IOCARD_SW, Input 259
{
IF &gps_obs = 1
{
&oi_gps_obs = CHANGEBITN 0 &oi_gps_obs
}
}
Var 2683, name gps_msg, Link IOCARD_SW, Input 258
{
IF &gps_msg = 1
{
&oi_gps_msg = CHANGEBITN 0 &oi_gps_msg
}
}
Var 2684, name gps_men, Link IOCARD_SW, Input 257
{
IF &gps_men = 1
{
&oi_gps_men = CHANGEBITN 0 &oi_gps_men
}
}
// Var 2685, name gps_cdi, Link IOCARD_SW, Input 287 INACTIV
// {
// IF &gps_ = 1
// {
// &oi_gps_ = CHANGEBITN 0 &oi_gps_
// }
// }
Var 2686, name gps_pro, Link IOCARD_SW, Input 286
{
IF &gps_pro = 1
{
&oi_gps_pro = CHANGEBITN 0 &oi_gps_pro
}
}
Var 2687, name gps_fpl, Link IOCARD_SW, Input 279
{
IF &gps_fpl = 1
{
&oi_gps_fpl = CHANGEBITN 0 &oi_gps_fpl
}
}
Var 2688, name gps_ter, Link IOCARD_SW, Input 285
{
IF &gps_ter = 1
{
&oi_gps_ter = CHANGEBITN 0 &oi_gps_ter
}
}
Var 2689, name gps_clr, Link IOCARD_SW, Input 284
{
IF &gps_clr = 1
{
&oi_gps_clr = CHANGEBITN 0 &oi_gps_clr
}
}
Var 2690, name gps_sel, Link IOCARD_SW, Input 256
{
IF &gps_sel = 1
{
&oi_gps_sel = CHANGEBITN 0 &oi_gps_sel
}
}
Var 2691, name gps_ent, Link IOCARD_SW, Input 255
{
IF &gps_ent = 1
{
&oi_gps_ent = CHANGEBITN 0 &oi_gps_ent
}
}
// 2700 TRANPONDER
// * XPD FS Offsets *
Var 2710, name fs_xpd_bcd, Link FSUIPC_INOUT, Offset $0354, Length 2, VALUE 0
{
&fs_xpd = FROMBCD &fs_xpd_bcd
}
Var 2712, name fs_xpd
{
CALL &avionicsys
}
Var 2714, Name oi_xpd_1000, Link IOCP, Offset 1100, Device 0
Var 2716, Name oi_xpd_100, Link IOCP, Offset 1101, Device 0
Var 2718, Name oi_xpd_10, Link IOCP, Offset 1102, Device 0
Var 2720, Name oi_xpd_1, Link IOCP, Offset 1103, Device 0
// * IVAO *
Var 2722, name fs_xpd_ivao, Link FSUIPC_INOUT, Offset $7b91, Length 1 // values: 0=charlie, 1=standby
Var 2724, name fs_xpd_ivao_id, Link FSUIPC_INOUT, Offset $7b93, Length 1
// Var , name fs_com1_ivao, Link FSUIPC_INOUT, Offset $7b94, Length 1
// Var , name fs_com2_ivao, Link FSUIPC_INOUT, Offset $7b98, Length 1
// * XPD Switches *
Var 2730, name xpd_sb, Link IOCARD_SW, Input 277
{
&fs_xpd_ivao = 1
CALL &avionicsys
}
Var 2732, name xpd_on, Link IOCARD_SW, Input 278
{
&fs_xpd_ivao = 0
CALL &avionicsys
}
Var 2734, name xpd_1000, Link IOCARD_SW, Input 273
{
IF &xpd_1000 = 1
{
&oi_xpd_1000 = CHANGEBITN 0 &oi_xpd_1000
}
}
Var 2736, name xpd_100, Link IOCARD_SW, Input 274
{
IF &xpd_100 = 1
{
&oi_xpd_100 = CHANGEBITN 0 &oi_xpd_100
}
}
Var 2738, name xpd_10, Link IOCARD_SW, Input 272
{
IF &xpd_10 = 1
{
&oi_xpd_10 = CHANGEBITN 0 &oi_xpd_10
}
}
Var 2740, name xpd_1, Link IOCARD_SW, Input 271
{
IF &xpd_1 = 1
{
&oi_xpd_1 = CHANGEBITN 0 &oi_xpd_1
}
}
Var 2742, name xpd_vfr, Link IOCARD_SW, Input 275 // set Squawk 7000
{
&fs_xpd_bcd = 28672
}
Var 2744, name xpd_id, Link IOCARD_SW, Input 276
{
&fs_xpd_ivao_id = &xpd_id
L0 = &xpd_on * &el_xpd
L0 = L0 * &xpd_id
C0 = L0 = 1
C1 = &fs_avbusvolt > 1700
IF C0 AND C1
{
&sound = 128
}
}
// 2800 ADF
// * FS ADF Offset *
Var 2810, name fs_adf_bcd, Link FSUIPC_IN, Offset $034c, Length 2
{
&fs_adf_int = FROMBCD &fs_adf_bcd
}
Var 2812, name fs_adf_ext, Link FSUIPC_IN, Offset $0356, Length 2
{
L0 = TESTBIT &fs_adf_ext 8 // extract ADF 1000th
IF L0 = 1
{
&fs_adf_1 = 1
}
ELSE
{
&fs_adf_1 = -999999 // turn the display of if zero
}
IF &fs_adf_1 = 1
{
&fs_adf_dec = &fs_adf_ext - 256 // extract ADF decimals
}
ELSE
{
&fs_adf_dec = &fs_adf_ext
}
}
Var 2814, name fs_adf_1
{
CALL &avionicsys
}
Var 2816, name fs_adf_int
{
CALL &avionicsys
}
Var 2818, name fs_adf_dec
{
CALL &avionicsys
}
Var 2830, Name oi_adf_100, Link IOCP, Offset 1110, Device 0
Var 2832, Name oi_adf_10, Link IOCP, Offset 1111, Device 0
Var 2834, Name oi_adf_1, Link IOCP, Offset 1112, Device 0
Var 2836, Name oi_adf_dec, Link IOCP, Offset 1113, Device 0
// * ADF Switches *
Var 2850, name adf_100, Link IOCARD_SW, Input 244
{
IF &adf_100 = 1
{
&oi_adf_100 = CHANGEBITN 0 &oi_adf_100
}
}
Var 2852, name adf_10, Link IOCARD_SW, Input 245
{
IF &adf_10 = 1
{
&oi_adf_10 = CHANGEBITN 0 &oi_adf_10
}
}
Var 2854, name adf_1, Link IOCARD_SW, Input 247
{
IF &adf_1 = 1
{
&oi_adf_1 = CHANGEBITN 0 &oi_adf_1
}
}
Var 2856, name adf_dec, Link IOCARD_SW, Input 246
{
IF &adf_dec = 1
{
&oi_adf_dec = CHANGEBITN 0 &oi_adf_dec
}
}
// 2860 EFIS trajectory display
Var 2860, name efis_on, Link FSUIPC_INOUT, Offset $0e5a, Length 2 // EFIS ON/OFF
Var 2861, name efis_alt, Link FSUIPC_INOUT, Offset $0e5c, Length 2 // display max altitude in feet
Var 2862, name efis_den, Link FSUIPC_INOUT, Offset $0e5e, Length 2 // density 0-2
Var 2863, name efis_rng, Link FSUIPC_INOUT, Offset $0e60, Length 2 // range 0-2
Var 2864, name efis_ini, Link FSUIPC_INOUT, Offset $0e62, Length 2 // 0=norm 1=reset 2=plot
Var 2865, name efis_ils, Link FSUIPC_INOUT, Offset $0e64, Length 2 // 2=vor 4=ils
Var 2866, name efis_n12, Link FSUIPC_INOUT, Offset $0e66, Length 2 // 1=nav1 2=nav2
Var 2867, name efis_dys, Link FSUIPC_INOUT, Offset $0e68, Length 2 // shape 0=rect 1=T 2=bricks
// 2900 RADIO DISPLAYS
Var 2910, name dp_c1sb_1, Link IOCARD_DISPLAY, Digit 138, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2912, name dp_c1sb_int, Link IOCARD_DISPLAY, Digit 136, Numbers 2 // Standby integers
Var 2913, name dp_c1sb_dec, Link IOCARD_DISPLAY, Digit 134, Numbers 2 // Standby decimals
Var 2914, name dp_c1ac_1, Link IOCARD_DISPLAY, Digit 133, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2915, name dp_c1ac, Link IOCARD_DISPLAY, Digit 129, Numbers 4
Var 2920, name dp_c2sb_1, Link IOCARD_DISPLAY, Digit 143, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2922, name dp_c2sb_int, Link IOCARD_DISPLAY, Digit 141, Numbers 2 // Standby integers
Var 2924, name dp_c2sb_dec, Link IOCARD_DISPLAY, Digit 139, Numbers 2 // Standby decimals
Var 2930, name dp_n1sb_1, Link IOCARD_DISPLAY, Digit 149, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2932, name dp_n1sb_int, Link IOCARD_DISPLAY, Digit 147, Numbers 2 // Standby integers
Var 2934, name dp_n1sb_dec, Link IOCARD_DISPLAY, Digit 145, Numbers 2 // Standby decimals
Var 2936, name dp_n1ac_1, Link IOCARD_DISPLAY, Digit 154, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2938, name dp_n1ac, Link IOCARD_DISPLAY, Digit 150, Numbers 4
Var 2940, name dp_n2sb_1, Link IOCARD_DISPLAY, Digit 159, Numbers 1 // Initial digit 1. Delete if hard wired
Var 2942, name dp_n2sb_int, Link IOCARD_DISPLAY, Digit 157, Numbers 2 // Standby integers
Var 2944, name dp_n2sb_dec, Link IOCARD_DISPLAY, Digit 155, Numbers 2 // Standby decimals
Var 2950, name dp_xpd, Link IOCARD_DISPLAY, Digit 25, Numbers 4
Var 2960, name dp_adf_1, Link IOCARD_DISPLAY, Digit 24, Numbers 1
Var 2962, name dp_adf_int, Link IOCARD_DISPLAY, Digit 21, Numbers 3
Var 2964, name dp_adf_dec, Link IOCARD_DISPLAY, Digit 20, Numbers 1
Var 2980, name l_icom1, Link IOCARD_OUT, Output 90
Var 2981, name l_icom2, Link IOCARD_OUT, Output 88
Var 2982, name l_icboth, Link IOCARD_OUT, Output 86
Var 2983, name l_icnav1, Link IOCARD_OUT, Output 84
Var 2984, name l_icnav2, Link IOCARD_OUT, Output 82
Var 2985, name l_icmkr, Link IOCARD_OUT, Output 80
Var 2986, name l_icdme, Link IOCARD_OUT, Output 78
Var 2987, name l_icadf, Link IOCARD_OUT, Output 76
Var 2988, name l_dpcom1, Link IOCARD_OUT, Output 178
Var 2989, name l_dpcom2, Link IOCARD_OUT, Output 179
Var 2990, name l_dpadf, Link IOCARD_OUT, Output 184
Var 2991, name l_xpd_g, Link IOCARD_OUT, Output 181
Var 2992, name l_xpd_y, Link IOCARD_OUT, Output 180
Var 2993, name l_kts, Link IOCARD_OUT, Output 182
Var 2994, name l_mach, Link IOCARD_OUT, Output 177
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