kopia lustrzana https://github.com/Hamlib/Hamlib
411 wiersze
15 KiB
C
411 wiersze
15 KiB
C
/*
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* Hamlib Interface - list of known rigs
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* Copyright (c) 2000-2002 by Stephane Fillod and Frank Singleton
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*
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* $Id: riglist.h,v 1.30 2002-11-12 00:15:01 fillods Exp $
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*
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* This library is free software; you can redistribute it and/or modify
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* it under the terms of the GNU Library General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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*/
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#ifndef _RIGLIST_H
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#define _RIGLIST_H 1
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#define RIG_MAKE_MODEL(a,b) ((a)*100+(b))
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#define RIG_BACKEND_NUM(a) ((a)/100)
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/*! \file riglist.h
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* \brief Hamlib rig(radio) model definitions.
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*
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* This file contains rig model definitions for the Hamlib rig API.
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* Each distinct rig type has a unique model number (ID) and is used
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* by hamlib to identify and distinguish between the different hardware drivers.
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* The exact model numbers can be acquired using the macros in this
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* file. To obtain a list of supported rig branches, one can use the statically
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* defined RIG_BACKEND_LIST macro. To obtain a full list of supported rig (including
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* each model in every branch), the foreach_opened_rig() API function can be used.
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*
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* The model number, or ID, is used to tell hamlib, which rig the client whishes to
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* use. It is done with the rig_init() API call.
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*/
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#define RIG_MODEL_NONE 0
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/*! \def RIG_MODEL_DUMMY
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* \brief A macro that returns the model number for the dummy backend.
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*
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* The dummy backend, as the name suggests, is a backend which performs
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* no hardware operations and always behaves as one would expect. It can
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* be thought of as a hardware simulator and is very usefull for testing
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* client applications.
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*/
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#define RIG_DUMMY 0
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#define RIG_BACKEND_DUMMY "dummy"
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#define RIG_MODEL_DUMMY RIG_MAKE_MODEL(RIG_DUMMY, 1)
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/*
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* Yaesu
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*/
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#define RIG_YAESU 1
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#define RIG_BACKEND_YAESU "yaesu"
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#define RIG_MODEL_FT847 RIG_MAKE_MODEL(RIG_YAESU, 1)
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#define RIG_MODEL_FT1000 RIG_MAKE_MODEL(RIG_YAESU, 2)
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#define RIG_MODEL_FT1000D RIG_MAKE_MODEL(RIG_YAESU, 3)
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#define RIG_MODEL_FT1000MP RIG_MAKE_MODEL(RIG_YAESU, 4)
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#define RIG_MODEL_FT747 RIG_MAKE_MODEL(RIG_YAESU, 5)
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#define RIG_MODEL_FT757 RIG_MAKE_MODEL(RIG_YAESU, 6)
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#define RIG_MODEL_FT757GXII RIG_MAKE_MODEL(RIG_YAESU, 7)
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#define RIG_MODEL_FT575 RIG_MAKE_MODEL(RIG_YAESU, 8)
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#define RIG_MODEL_FT767 RIG_MAKE_MODEL(RIG_YAESU, 9)
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#define RIG_MODEL_FT736R RIG_MAKE_MODEL(RIG_YAESU, 10)
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#define RIG_MODEL_FT840 RIG_MAKE_MODEL(RIG_YAESU, 11)
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#define RIG_MODEL_FT820 RIG_MAKE_MODEL(RIG_YAESU, 12)
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#define RIG_MODEL_FT900 RIG_MAKE_MODEL(RIG_YAESU, 13)
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#define RIG_MODEL_FT920 RIG_MAKE_MODEL(RIG_YAESU, 14)
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#define RIG_MODEL_FT890 RIG_MAKE_MODEL(RIG_YAESU, 15)
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#define RIG_MODEL_FT990 RIG_MAKE_MODEL(RIG_YAESU, 16)
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#define RIG_MODEL_FRG100 RIG_MAKE_MODEL(RIG_YAESU, 17)
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#define RIG_MODEL_FRG9600 RIG_MAKE_MODEL(RIG_YAESU, 18)
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#define RIG_MODEL_FRG8800 RIG_MAKE_MODEL(RIG_YAESU, 19)
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#define RIG_MODEL_FT817 RIG_MAKE_MODEL(RIG_YAESU, 20)
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#define RIG_MODEL_FT100 RIG_MAKE_MODEL(RIG_YAESU, 21)
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/*
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* Kenwood
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*/
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#define RIG_KENWOOD 2
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#define RIG_BACKEND_KENWOOD "kenwood"
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#define RIG_MODEL_TS50 RIG_MAKE_MODEL(RIG_KENWOOD, 1)
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#define RIG_MODEL_TS440 RIG_MAKE_MODEL(RIG_KENWOOD, 2)
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#define RIG_MODEL_TS450S RIG_MAKE_MODEL(RIG_KENWOOD, 3)
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#define RIG_MODEL_TS570D RIG_MAKE_MODEL(RIG_KENWOOD, 4)
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#define RIG_MODEL_TS690S RIG_MAKE_MODEL(RIG_KENWOOD, 5)
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#define RIG_MODEL_TS711 RIG_MAKE_MODEL(RIG_KENWOOD, 6)
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#define RIG_MODEL_TS790 RIG_MAKE_MODEL(RIG_KENWOOD, 7)
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#define RIG_MODEL_TS811 RIG_MAKE_MODEL(RIG_KENWOOD, 8)
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#define RIG_MODEL_TS850 RIG_MAKE_MODEL(RIG_KENWOOD, 9)
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#define RIG_MODEL_TS870S RIG_MAKE_MODEL(RIG_KENWOOD, 10)
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#define RIG_MODEL_TS940 RIG_MAKE_MODEL(RIG_KENWOOD, 11)
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#define RIG_MODEL_TS950 RIG_MAKE_MODEL(RIG_KENWOOD, 12)
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#define RIG_MODEL_TS950SDX RIG_MAKE_MODEL(RIG_KENWOOD, 13)
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#define RIG_MODEL_TS2000 RIG_MAKE_MODEL(RIG_KENWOOD, 14)
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#define RIG_MODEL_R5000 RIG_MAKE_MODEL(RIG_KENWOOD, 15)
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#define RIG_MODEL_TS570S RIG_MAKE_MODEL(RIG_KENWOOD, 16)
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#define RIG_MODEL_THD7A RIG_MAKE_MODEL(RIG_KENWOOD, 17)
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#define RIG_MODEL_THD7AG RIG_MAKE_MODEL(RIG_KENWOOD, 18)
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#define RIG_MODEL_THF6A RIG_MAKE_MODEL(RIG_KENWOOD, 19)
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#define RIG_MODEL_THF7E RIG_MAKE_MODEL(RIG_KENWOOD, 20)
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#define RIG_MODEL_K2 RIG_MAKE_MODEL(RIG_KENWOOD, 21)
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/*
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* Icom
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*/
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#define RIG_ICOM 3
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#define RIG_BACKEND_ICOM "icom"
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#define RIG_MODEL_ICALL RIG_MAKE_MODEL(RIG_ICOM, 0) /* no in use anymore */
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#define RIG_MODEL_IC1271 RIG_MAKE_MODEL(RIG_ICOM, 1)
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#define RIG_MODEL_IC1275 RIG_MAKE_MODEL(RIG_ICOM, 2)
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#define RIG_MODEL_IC271 RIG_MAKE_MODEL(RIG_ICOM, 3)
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#define RIG_MODEL_IC275 RIG_MAKE_MODEL(RIG_ICOM, 4)
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#define RIG_MODEL_IC375 RIG_MAKE_MODEL(RIG_ICOM, 5)
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#define RIG_MODEL_IC471 RIG_MAKE_MODEL(RIG_ICOM, 6)
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#define RIG_MODEL_IC475 RIG_MAKE_MODEL(RIG_ICOM, 7)
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#define RIG_MODEL_IC575 RIG_MAKE_MODEL(RIG_ICOM, 8)
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#define RIG_MODEL_IC706 RIG_MAKE_MODEL(RIG_ICOM, 9)
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#define RIG_MODEL_IC706MKII RIG_MAKE_MODEL(RIG_ICOM, 10)
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#define RIG_MODEL_IC706MKIIG RIG_MAKE_MODEL(RIG_ICOM, 11)
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#define RIG_MODEL_IC707 RIG_MAKE_MODEL(RIG_ICOM, 12)
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#define RIG_MODEL_IC718 RIG_MAKE_MODEL(RIG_ICOM, 13)
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#define RIG_MODEL_IC725 RIG_MAKE_MODEL(RIG_ICOM, 14)
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#define RIG_MODEL_IC726 RIG_MAKE_MODEL(RIG_ICOM, 15)
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#define RIG_MODEL_IC728 RIG_MAKE_MODEL(RIG_ICOM, 16)
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#define RIG_MODEL_IC729 RIG_MAKE_MODEL(RIG_ICOM, 17)
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#define RIG_MODEL_IC731 RIG_MAKE_MODEL(RIG_ICOM, 18)
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#define RIG_MODEL_IC735 RIG_MAKE_MODEL(RIG_ICOM, 19)
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#define RIG_MODEL_IC736 RIG_MAKE_MODEL(RIG_ICOM, 20)
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#define RIG_MODEL_IC737 RIG_MAKE_MODEL(RIG_ICOM, 21)
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#define RIG_MODEL_IC738 RIG_MAKE_MODEL(RIG_ICOM, 22)
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#define RIG_MODEL_IC746 RIG_MAKE_MODEL(RIG_ICOM, 23)
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#define RIG_MODEL_IC751 RIG_MAKE_MODEL(RIG_ICOM, 24)
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#define RIG_MODEL_IC751A RIG_MAKE_MODEL(RIG_ICOM, 25)
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#define RIG_MODEL_IC756 RIG_MAKE_MODEL(RIG_ICOM, 26)
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#define RIG_MODEL_IC756PRO RIG_MAKE_MODEL(RIG_ICOM, 27)
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#define RIG_MODEL_IC761 RIG_MAKE_MODEL(RIG_ICOM, 28)
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#define RIG_MODEL_IC765 RIG_MAKE_MODEL(RIG_ICOM, 29)
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#define RIG_MODEL_IC775 RIG_MAKE_MODEL(RIG_ICOM, 30)
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#define RIG_MODEL_IC781 RIG_MAKE_MODEL(RIG_ICOM, 31)
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#define RIG_MODEL_IC820 RIG_MAKE_MODEL(RIG_ICOM, 32)
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#define RIG_MODEL_IC821 RIG_MAKE_MODEL(RIG_ICOM, 33)
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#define RIG_MODEL_IC821H RIG_MAKE_MODEL(RIG_ICOM, 34)
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#define RIG_MODEL_IC970 RIG_MAKE_MODEL(RIG_ICOM, 35)
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#define RIG_MODEL_ICR10 RIG_MAKE_MODEL(RIG_ICOM, 36)
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#define RIG_MODEL_ICR71 RIG_MAKE_MODEL(RIG_ICOM, 37)
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#define RIG_MODEL_ICR72 RIG_MAKE_MODEL(RIG_ICOM, 38)
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#define RIG_MODEL_ICR75 RIG_MAKE_MODEL(RIG_ICOM, 39)
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#define RIG_MODEL_ICR7000 RIG_MAKE_MODEL(RIG_ICOM, 40)
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#define RIG_MODEL_ICR7100 RIG_MAKE_MODEL(RIG_ICOM, 41)
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#define RIG_MODEL_ICR8500 RIG_MAKE_MODEL(RIG_ICOM, 42)
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#define RIG_MODEL_ICR9000 RIG_MAKE_MODEL(RIG_ICOM, 43)
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#define RIG_MODEL_IC910 RIG_MAKE_MODEL(RIG_ICOM, 44)
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#define RIG_MODEL_ICR78 RIG_MAKE_MODEL(RIG_ICOM, 45)
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#define RIG_MODEL_IC746PRO RIG_MAKE_MODEL(RIG_ICOM, 46)
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#define RIG_MODEL_IC756PROII RIG_MAKE_MODEL(RIG_ICOM, 47)
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#define RIG_MODEL_IC7400 RIG_MAKE_MODEL(RIG_ICOM, 54)
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/*
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* Optoelectronics (CI-V)
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*/
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#define RIG_MODEL_MINISCOUT RIG_MAKE_MODEL(RIG_ICOM, 48)
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#define RIG_MODEL_XPLORER RIG_MAKE_MODEL(RIG_ICOM, 49)
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#define RIG_MODEL_OS535 RIG_MAKE_MODEL(RIG_ICOM, 52)
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#define RIG_MODEL_OS456 RIG_MAKE_MODEL(RIG_ICOM, 53)
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/*
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* TenTec (CI-V)
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*/
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#define RIG_MODEL_OMNIVI RIG_MAKE_MODEL(RIG_ICOM, 50)
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#define RIG_MODEL_OMNIVIP RIG_MAKE_MODEL(RIG_ICOM, 51) /* OMNI-VI+ */
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/*
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* Icom PCR
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*/
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#define RIG_PCR 4
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#define RIG_BACKEND_PCR "pcr"
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#define RIG_MODEL_PCR1000 RIG_MAKE_MODEL(RIG_PCR, 1)
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#define RIG_MODEL_PCR100 RIG_MAKE_MODEL(RIG_PCR, 2)
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/*
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* AOR
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*/
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#define RIG_AOR 5
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#define RIG_BACKEND_AOR "aor"
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#define RIG_MODEL_AR8200 RIG_MAKE_MODEL(RIG_AOR, 1)
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#define RIG_MODEL_AR8000 RIG_MAKE_MODEL(RIG_AOR, 2)
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#define RIG_MODEL_AR7030 RIG_MAKE_MODEL(RIG_AOR, 3)
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#define RIG_MODEL_AR5000 RIG_MAKE_MODEL(RIG_AOR, 4)
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#define RIG_MODEL_AR3030 RIG_MAKE_MODEL(RIG_AOR, 5)
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#define RIG_MODEL_AR3000A RIG_MAKE_MODEL(RIG_AOR, 6)
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#define RIG_MODEL_AR3000 RIG_MAKE_MODEL(RIG_AOR, 7)
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#define RIG_MODEL_AR2700 RIG_MAKE_MODEL(RIG_AOR, 8)
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#define RIG_MODEL_AR2500 RIG_MAKE_MODEL(RIG_AOR, 9)
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#define RIG_MODEL_AR16 RIG_MAKE_MODEL(RIG_AOR, 10)
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#define RIG_MODEL_SDU5500 RIG_MAKE_MODEL(RIG_AOR, 11)
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/*
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* JRC
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*/
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#define RIG_JRC 6
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#define RIG_BACKEND_JRC "jrc"
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#define RIG_MODEL_JST145 RIG_MAKE_MODEL(RIG_JRC, 1)
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#define RIG_MODEL_JST245 RIG_MAKE_MODEL(RIG_JRC, 2)
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#define RIG_MODEL_CMH530 RIG_MAKE_MODEL(RIG_JRC, 3)
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#define RIG_MODEL_NRD345 RIG_MAKE_MODEL(RIG_JRC, 4)
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#define RIG_MODEL_NRD525 RIG_MAKE_MODEL(RIG_JRC, 5)
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#define RIG_MODEL_NRD535 RIG_MAKE_MODEL(RIG_JRC, 6)
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#define RIG_MODEL_NRD545 RIG_MAKE_MODEL(RIG_JRC, 7)
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/*
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* Radio Shack
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* Actualy, they might be either Icom or Uniden. TBC --SF
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*/
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#define RIG_RADIOSHACK 7
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#define RIG_BACKEND_RADIOSHACK "radioshack"
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#define RIG_MODEL_RS64 RIG_MAKE_MODEL(RIG_RADIOSHACK, 1) /* PRO-64 */
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#define RIG_MODEL_RS2005 RIG_MAKE_MODEL(RIG_RADIOSHACK, 2) /* w/ OptoElectronics OS456 Board */
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#define RIG_MODEL_RS2006 RIG_MAKE_MODEL(RIG_RADIOSHACK, 3) /* w/ OptoElectronics OS456 Board */
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#define RIG_MODEL_RS2035 RIG_MAKE_MODEL(RIG_RADIOSHACK, 4) /* w/ OptoElectronics OS435 Board */
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#define RIG_MODEL_RS2042 RIG_MAKE_MODEL(RIG_RADIOSHACK, 5) /* w/ OptoElectronics OS435 Board */
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#define RIG_MODEL_RS2041 RIG_MAKE_MODEL(RIG_RADIOSHACK, 6) /* PRO-2041 */
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#define RIG_MODEL_RS2052 RIG_MAKE_MODEL(RIG_RADIOSHACK, 7) /* PRO-2052 */
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/*
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* Uniden
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*/
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#define RIG_UNIDEN 8
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#define RIG_BACKEND_UNIDEN "uniden"
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#define RIG_MODEL_BC780 RIG_MAKE_MODEL(RIG_UNIDEN, 1) /* Uniden BC780 - Trunk Tracker "Desktop Radio" */
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#define RIG_MODEL_BC245 RIG_MAKE_MODEL(RIG_UNIDEN, 2)
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#define RIG_MODEL_BC895 RIG_MAKE_MODEL(RIG_UNIDEN, 3)
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/*
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* Drake
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*/
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#define RIG_DRAKE 9
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#define RIG_BACKEND_DRAKE "drake"
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#define RIG_MODEL_DKR8 RIG_MAKE_MODEL(RIG_DRAKE, 1)
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#define RIG_MODEL_DKR8A RIG_MAKE_MODEL(RIG_DRAKE, 2)
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#define RIG_MODEL_DKR8B RIG_MAKE_MODEL(RIG_DRAKE, 3)
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/*
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* Lowe
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*/
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#define RIG_LOWE 10
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#define RIG_BACKEND_LOWE "lowe"
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#define RIG_MODEL_HF150 RIG_MAKE_MODEL(RIG_LOWE, 1)
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#define RIG_MODEL_HF225 RIG_MAKE_MODEL(RIG_LOWE, 2)
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#define RIG_MODEL_HF250 RIG_MAKE_MODEL(RIG_LOWE, 3)
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/*
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* Racal
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*/
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#define RIG_RACAL 11
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#define RIG_BACKEND_RACAL "racal"
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#define RIG_MODEL_RA3790 RIG_MAKE_MODEL(RIG_RACAL, 1)
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#define RIG_MODEL_RA3720 RIG_MAKE_MODEL(RIG_RACAL, 2)
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#define RIG_MODEL_RA6790 RIG_MAKE_MODEL(RIG_RACAL, 3)
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/*
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* Watkins-Johnson
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*/
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#define RIG_WJ 12
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#define RIG_BACKEND_WJ "wj"
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#define RIG_MODEL_HF1000 RIG_MAKE_MODEL(RIG_WJ, 1)
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#define RIG_MODEL_HF1000A RIG_MAKE_MODEL(RIG_WJ, 2)
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#define RIG_MODEL_WJ8711 RIG_MAKE_MODEL(RIG_WJ, 3)
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/*
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* Rohde & Schwarz
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*/
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#define RIG_EK 13
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#define RIG_BACKEND_EK "ek"
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#define RIG_MODEL_ESM500 RIG_MAKE_MODEL(RIG_EK, 1)
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#define RIG_MODEL_EK890 RIG_MAKE_MODEL(RIG_EK, 2)
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#define RIG_MODEL_EK891 RIG_MAKE_MODEL(RIG_EK, 3)
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#define RIG_MODEL_EK895 RIG_MAKE_MODEL(RIG_EK, 4)
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#define RIG_MODEL_EK070 RIG_MAKE_MODEL(RIG_EK, 5)
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/*
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* Skanti
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*/
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#define RIG_SKANTI 14
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#define RIG_BACKEND_SKANTI "skanti"
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#define RIG_MODEL_TRP7000 RIG_MAKE_MODEL(RIG_SKANTI, 1)
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#define RIG_MODEL_TRP8000 RIG_MAKE_MODEL(RIG_SKANTI, 2)
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#define RIG_MODEL_TRP9000 RIG_MAKE_MODEL(RIG_SKANTI, 3)
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/*
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* WiNRADiO/LinRADiO, by Rosetta Labs
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*/
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#define RIG_WINRADIO 15
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#define RIG_BACKEND_WINRADIO "winradio"
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#define RIG_MODEL_WR1000 RIG_MAKE_MODEL(RIG_WINRADIO, 1)
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#define RIG_MODEL_WR1500 RIG_MAKE_MODEL(RIG_WINRADIO, 2)
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#define RIG_MODEL_WR1550 RIG_MAKE_MODEL(RIG_WINRADIO, 3)
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#define RIG_MODEL_WR3100 RIG_MAKE_MODEL(RIG_WINRADIO, 4)
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#define RIG_MODEL_WR3150 RIG_MAKE_MODEL(RIG_WINRADIO, 5)
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#define RIG_MODEL_WR3500 RIG_MAKE_MODEL(RIG_WINRADIO, 6)
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#define RIG_MODEL_WR3700 RIG_MAKE_MODEL(RIG_WINRADIO, 7)
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/*
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* Ten Tec
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*/
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#define RIG_TENTEC 16
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#define RIG_BACKEND_TENTEC "tentec"
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#define RIG_MODEL_TT550 RIG_MAKE_MODEL(RIG_TENTEC, 1) /* Pegasus */
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#define RIG_MODEL_TT538 RIG_MAKE_MODEL(RIG_TENTEC, 2) /* Jupiter */
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#define RIG_MODEL_RX320 RIG_MAKE_MODEL(RIG_TENTEC, 3)
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#define RIG_MODEL_RX340 RIG_MAKE_MODEL(RIG_TENTEC, 4)
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/*
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* Alinco
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*/
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#define RIG_ALINCO 17
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#define RIG_BACKEND_ALINCO "alinco"
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#define RIG_MODEL_DX77 RIG_MAKE_MODEL(RIG_ALINCO, 1)
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/*
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* Kachina
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*/
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#define RIG_KACHINA 18
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#define RIG_BACKEND_KACHINA "kachina"
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#define RIG_MODEL_505DSP RIG_MAKE_MODEL(RIG_KACHINA, 1)
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/*! \def RIG_MODEL_RPC
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* \brief A macro that returns the model number of the RPC Network pseudo-backend.
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*
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* The RPC backend can be used to connect and send commands to a rig server,
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* \c rpc.rigd, running on a remote machine. Using this client/server scheme,
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* several clients can control and monitor the same rig hardware.
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*/
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#define RIG_RPC 19
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#define RIG_BACKEND_RPC "rpcrig"
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#define RIG_MODEL_RPC RIG_MAKE_MODEL(RIG_RPC, 1)
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/*
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* Gnuradio backend
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|
*/
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#define RIG_GNURADIO 20
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#define RIG_BACKEND_GNURADIO "gnuradio"
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#define RIG_MODEL_GNURADIO RIG_MAKE_MODEL(RIG_GNURADIO, 1) /* dev model */
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#define RIG_MODEL_MC4020 RIG_MAKE_MODEL(RIG_GNURADIO, 2)
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|
|
|
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/*
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|
* TODO:
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|
RIG_MODEL_KWZ30, KNEISNER +DOERING
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|
RIG_MODEL_E1800, DASA-Telefunken
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|
RIG_EKD500, RFT
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|
RIG_W41PC (ISA card) Wavecom
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|
*/
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|
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/*! \typedef typedef int rig_model_t
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\brief Convenience type definition for rig model.
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|
*/
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typedef int rig_model_t;
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|
|
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/*! \def RIG_BACKEND_LIST
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|
* \brief Static list of rig models.
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|
*
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|
* This is a NULL terminated list of available rig backends. Each entry
|
|
* in the list consists of two fields: The branch number, which is an integer,
|
|
* and the branch name, which is a character string.
|
|
*/
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|
#define RIG_BACKEND_LIST { \
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{ RIG_DUMMY, RIG_BACKEND_DUMMY }, \
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{ RIG_YAESU, RIG_BACKEND_YAESU }, \
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{ RIG_KENWOOD, RIG_BACKEND_KENWOOD }, \
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{ RIG_ICOM, RIG_BACKEND_ICOM }, \
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|
{ RIG_PCR, RIG_BACKEND_PCR }, \
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|
{ RIG_AOR, RIG_BACKEND_AOR }, \
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{ RIG_JRC, RIG_BACKEND_JRC }, \
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|
{ RIG_RADIOSHACK, RIG_BACKEND_RADIOSHACK }, \
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|
{ RIG_UNIDEN, RIG_BACKEND_UNIDEN }, \
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|
{ RIG_DRAKE, RIG_BACKEND_DRAKE }, \
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|
{ RIG_LOWE, RIG_BACKEND_LOWE }, \
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|
{ RIG_RACAL, RIG_BACKEND_RACAL }, \
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{ RIG_WJ, RIG_BACKEND_WJ }, \
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|
{ RIG_EK, RIG_BACKEND_EK }, \
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{ RIG_SKANTI, RIG_BACKEND_SKANTI }, \
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|
{ RIG_WINRADIO, RIG_BACKEND_WINRADIO }, \
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|
{ RIG_TENTEC, RIG_BACKEND_TENTEC }, \
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|
{ RIG_ALINCO, RIG_BACKEND_ALINCO }, \
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|
{ RIG_KACHINA, RIG_BACKEND_KACHINA }, \
|
|
{ RIG_RPC, RIG_BACKEND_RPC }, \
|
|
{ RIG_GNURADIO, RIG_BACKEND_GNURADIO }, \
|
|
{ 0, NULL }, /* end */ \
|
|
}
|
|
|
|
/*
|
|
* struct rig_backend_list {
|
|
* rig_model_t model;
|
|
* const char *backend;
|
|
* } rig_backend_list[] = RIG_LIST;
|
|
*
|
|
*/
|
|
|
|
#endif /* _RIGLIST_H */
|