radiotest2 - The presence of rtos library, and line 294 in RF1…

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The presence of rtos library, and line 294 in RF12B.cpp causes a crash when ISR occurs on falling edge on pin 9.

RF_defs.h@0:b4c2aa657754, 2012-03-25 (annotated)

Committer:: narshu
Date:: Sun Mar 25 20:14:41 2012 +0000
Revision:: 0:b4c2aa657754

Who changed what in which revision?

User	Revision	Line number	New contents of line
narshu	0:b4c2aa657754	1	/*
narshu	0:b4c2aa657754	2	* Open HR20
narshu	0:b4c2aa657754	3	*
narshu	0:b4c2aa657754	4	* target: ATmega169 @ 4 MHz in Honnywell Rondostat HR20E
narshu	0:b4c2aa657754	5	*
narshu	0:b4c2aa657754	6	* compiler: WinAVR-20071221
narshu	0:b4c2aa657754	7	* avr-libc 1.6.0
narshu	0:b4c2aa657754	8	* GCC 4.2.2
narshu	0:b4c2aa657754	9	*
narshu	0:b4c2aa657754	10	* copyright: 2008 Dario Carluccio (hr20-at-carluccio-dot-de)
narshu	0:b4c2aa657754	11	* 2008 Jiri Dobry (jdobry-at-centrum-dot-cz)
narshu	0:b4c2aa657754	12	* 2008 Mario Fischer (MarioFischer-at-gmx-dot-net)
narshu	0:b4c2aa657754	13	* 2007 Michael Smola (Michael-dot-Smola-at-gmx-dot-net)
narshu	0:b4c2aa657754	14	*
narshu	0:b4c2aa657754	15	* license: This program is free software; you can redistribute it and/or
narshu	0:b4c2aa657754	16	* modify it under the terms of the GNU Library General Public
narshu	0:b4c2aa657754	17	* License as published by the Free Software Foundation; either
narshu	0:b4c2aa657754	18	* version 2 of the License, or (at your option) any later version.
narshu	0:b4c2aa657754	19	*
narshu	0:b4c2aa657754	20	* This program is distributed in the hope that it will be useful,
narshu	0:b4c2aa657754	21	* but WITHOUT ANY WARRANTY; without even the implied warranty of
narshu	0:b4c2aa657754	22	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
narshu	0:b4c2aa657754	23	* GNU General Public License for more details.
narshu	0:b4c2aa657754	24	*
narshu	0:b4c2aa657754	25	* You should have received a copy of the GNU General Public License
narshu	0:b4c2aa657754	26	* along with this program. If not, see http:*www.gnu.org/licenses
narshu	0:b4c2aa657754	27	*/
narshu	0:b4c2aa657754	28
narshu	0:b4c2aa657754	29	/*
narshu	0:b4c2aa657754	30	* \file rfm.h
narshu	0:b4c2aa657754	31	* \brief functions to control the RFM12 Radio Transceiver Module
narshu	0:b4c2aa657754	32	* \author Mario Fischer <MarioFischer-at-gmx-dot-net>; Michael Smola <Michael-dot-Smola-at-gmx-dot-net>
narshu	0:b4c2aa657754	33	* \date $Date: 2010/04/17 17:57:02 $
narshu	0:b4c2aa657754	34	* $Rev: 260 $
narshu	0:b4c2aa657754	35	*/
narshu	0:b4c2aa657754	36
narshu	0:b4c2aa657754	37
narshu	0:b4c2aa657754	38	//#pragma once // multi-iclude prevention. gcc knows this pragma
narshu	0:b4c2aa657754	39	#ifndef rfm_H
narshu	0:b4c2aa657754	40	#define rfm_H
narshu	0:b4c2aa657754	41
narshu	0:b4c2aa657754	42
narshu	0:b4c2aa657754	43	#define RFM_SPI_16(OUTVAL) rfm_spi16(OUTVAL) //<! a function that gets a uint16_t (clocked out value) and returns a uint16_t (clocked in value)
narshu	0:b4c2aa657754	44
narshu	0:b4c2aa657754	45	#define RFM_CLK_OUTPUT 0
narshu	0:b4c2aa657754	46
narshu	0:b4c2aa657754	47	/*
narshu	0:b4c2aa657754	48	#define RFM_TESTPIN_INIT
narshu	0:b4c2aa657754	49	#define RFM_TESTPIN_ON
narshu	0:b4c2aa657754	50	#define RFM_TESTPIN_OFF
narshu	0:b4c2aa657754	51	#define RFM_TESTPIN_TOG
narshu	0:b4c2aa657754	52
narshu	0:b4c2aa657754	53	#define RFM_CONFIG_DISABLE 0x00 //<! RFM_CONFIG_*** are combinable flags, what the RFM shold do
narshu	0:b4c2aa657754	54	#define RFM_CONFIG_BROADCASTSTATUS 0x01 //<! Flag that enables the HR20's status broadcast every minute
narshu	0:b4c2aa657754	55
narshu	0:b4c2aa657754	56	#define RFM_CONFIG_ENABLEALL 0xff
narshu	0:b4c2aa657754	57	*/
narshu	0:b4c2aa657754	58
narshu	0:b4c2aa657754	59
narshu	0:b4c2aa657754	60	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	61	//
narshu	0:b4c2aa657754	62	// RFM status bits
narshu	0:b4c2aa657754	63	//
narshu	0:b4c2aa657754	64	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	65
narshu	0:b4c2aa657754	66	// Interrupt bits, latched ////////////////////////////////////////////////////
narshu	0:b4c2aa657754	67
narshu	0:b4c2aa657754	68	#define RFM_STATUS_FFIT 0x8000 // RX FIFO reached the progr. number of bits
narshu	0:b4c2aa657754	69	// Cleared by any FIFO read method
narshu	0:b4c2aa657754	70
narshu	0:b4c2aa657754	71	#define RFM_STATUS_RGIT 0x8000 // TX register is ready to receive
narshu	0:b4c2aa657754	72	// Cleared by TX write
narshu	0:b4c2aa657754	73
narshu	0:b4c2aa657754	74	#define RFM_STATUS_POR 0x4000 // Power On reset
narshu	0:b4c2aa657754	75	// Cleared by read status
narshu	0:b4c2aa657754	76
narshu	0:b4c2aa657754	77	#define RFM_STATUS_RGUR 0x2000 // TX register underrun, register over write
narshu	0:b4c2aa657754	78	// Cleared by read status
narshu	0:b4c2aa657754	79
narshu	0:b4c2aa657754	80	#define RFM_STATUS_FFOV 0x2000 // RX FIFO overflow
narshu	0:b4c2aa657754	81	// Cleared by read status
narshu	0:b4c2aa657754	82
narshu	0:b4c2aa657754	83	#define RFM_STATUS_WKUP 0x1000 // Wake up timer overflow
narshu	0:b4c2aa657754	84	// Cleared by read status
narshu	0:b4c2aa657754	85
narshu	0:b4c2aa657754	86	#define RFM_STATUS_EXT 0x0800 // Interupt changed to low
narshu	0:b4c2aa657754	87	// Cleared by read status
narshu	0:b4c2aa657754	88
narshu	0:b4c2aa657754	89	#define RFM_STATUS_LBD 0x0400 // Low battery detect
narshu	0:b4c2aa657754	90
narshu	0:b4c2aa657754	91	// Status bits ////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	92
narshu	0:b4c2aa657754	93	#define RFM_STATUS_FFEM 0x0200 // FIFO is empty
narshu	0:b4c2aa657754	94	#define RFM_STATUS_ATS 0x0100 // TX mode: Strong enough RF signal
narshu	0:b4c2aa657754	95	#define RFM_STATUS_RSSI 0x0100 // RX mode: signal strength above programmed limit
narshu	0:b4c2aa657754	96	#define RFM_STATUS_DQD 0x0080 // Data Quality detector output
narshu	0:b4c2aa657754	97	#define RFM_STATUS_CRL 0x0040 // Clock recovery lock
narshu	0:b4c2aa657754	98	#define RFM_STATUS_ATGL 0x0020 // Toggling in each AFC cycle
narshu	0:b4c2aa657754	99
narshu	0:b4c2aa657754	100	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	101	//
narshu	0:b4c2aa657754	102	// 1. Configuration Setting Command
narshu	0:b4c2aa657754	103	//
narshu	0:b4c2aa657754	104	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	105
narshu	0:b4c2aa657754	106	#define RFM_CONFIG 0x8000
narshu	0:b4c2aa657754	107
narshu	0:b4c2aa657754	108	#define RFM_CONFIG_EL 0x8080 // Enable TX Register
narshu	0:b4c2aa657754	109	#define RFM_CONFIG_EF 0x8040 // Enable RX FIFO buffer
narshu	0:b4c2aa657754	110	#define RFM_CONFIG_BAND_315 0x8000 // Frequency band
narshu	0:b4c2aa657754	111	#define RFM_CONFIG_BAND_433 0x8010
narshu	0:b4c2aa657754	112	#define RFM_CONFIG_BAND_868 0x8020
narshu	0:b4c2aa657754	113	#define RFM_CONFIG_BAND_915 0x8030
narshu	0:b4c2aa657754	114	#define RFM_CONFIG_X_8_5pf 0x8000 // Crystal Load Capacitor
narshu	0:b4c2aa657754	115	#define RFM_CONFIG_X_9_0pf 0x8001
narshu	0:b4c2aa657754	116	#define RFM_CONFIG_X_9_5pf 0x8002
narshu	0:b4c2aa657754	117	#define RFM_CONFIG_X_10_0pf 0x8003
narshu	0:b4c2aa657754	118	#define RFM_CONFIG_X_10_5pf 0x8004
narshu	0:b4c2aa657754	119	#define RFM_CONFIG_X_11_0pf 0x8005
narshu	0:b4c2aa657754	120	#define RFM_CONFIG_X_11_5pf 0x8006
narshu	0:b4c2aa657754	121	#define RFM_CONFIG_X_12_0pf 0x8007
narshu	0:b4c2aa657754	122	#define RFM_CONFIG_X_12_5pf 0x8008
narshu	0:b4c2aa657754	123	#define RFM_CONFIG_X_13_0pf 0x8009
narshu	0:b4c2aa657754	124	#define RFM_CONFIG_X_13_5pf 0x800A
narshu	0:b4c2aa657754	125	#define RFM_CONFIG_X_14_0pf 0x800B
narshu	0:b4c2aa657754	126	#define RFM_CONFIG_X_14_5pf 0x800C
narshu	0:b4c2aa657754	127	#define RFM_CONFIG_X_15_0pf 0x800D
narshu	0:b4c2aa657754	128	#define RFM_CONFIG_X_15_5pf 0x800E
narshu	0:b4c2aa657754	129	#define RFM_CONFIG_X_16_0pf 0x800F
narshu	0:b4c2aa657754	130
narshu	0:b4c2aa657754	131	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	132	//
narshu	0:b4c2aa657754	133	// 2. Power Management Command
narshu	0:b4c2aa657754	134	//
narshu	0:b4c2aa657754	135	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	136
narshu	0:b4c2aa657754	137	#define RFM_POWER_MANAGEMENT 0x8200
narshu	0:b4c2aa657754	138
narshu	0:b4c2aa657754	139	#define RFM_POWER_MANAGEMENT_ER 0x8280 // Enable receiver
narshu	0:b4c2aa657754	140	#define RFM_POWER_MANAGEMENT_EBB 0x8240 // Enable base band block
narshu	0:b4c2aa657754	141	#define RFM_POWER_MANAGEMENT_ET 0x8220 // Enable transmitter
narshu	0:b4c2aa657754	142	#define RFM_POWER_MANAGEMENT_ES 0x8210 // Enable synthesizer
narshu	0:b4c2aa657754	143	#define RFM_POWER_MANAGEMENT_EX 0x8208 // Enable crystal oscillator
narshu	0:b4c2aa657754	144	#define RFM_POWER_MANAGEMENT_EB 0x8204 // Enable low battery detector
narshu	0:b4c2aa657754	145	#define RFM_POWER_MANAGEMENT_EW 0x8202 // Enable wake-up timer
narshu	0:b4c2aa657754	146	#define RFM_POWER_MANAGEMENT_DC 0x8201 // Disable clock output of CLK pin
narshu	0:b4c2aa657754	147
narshu	0:b4c2aa657754	148	#ifndef RFM_CLK_OUTPUT
narshu	0:b4c2aa657754	149	#error RFM_CLK_OUTPUT must be defined to 0 or 1
narshu	0:b4c2aa657754	150	#endif
narshu	0:b4c2aa657754	151	#if RFM_CLK_OUTPUT
narshu	0:b4c2aa657754	152	#define RFM_TX_ON_PRE() RFM_SPI_16( \
narshu	0:b4c2aa657754	153	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	154	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	155	#define RFM_TX_ON() RFM_SPI_16( \
narshu	0:b4c2aa657754	156	RFM_POWER_MANAGEMENT_ET \| \
narshu	0:b4c2aa657754	157	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	158	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	159	#define RFM_RX_ON() RFM_SPI_16( \
narshu	0:b4c2aa657754	160	RFM_POWER_MANAGEMENT_ER \| \
narshu	0:b4c2aa657754	161	RFM_POWER_MANAGEMENT_EBB \| \
narshu	0:b4c2aa657754	162	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	163	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	164	#define RFM_OFF() RFM_SPI_16( \
narshu	0:b4c2aa657754	165	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	166	#else
narshu	0:b4c2aa657754	167	#define RFM_TX_ON_PRE() RFM_SPI_16( \
narshu	0:b4c2aa657754	168	RFM_POWER_MANAGEMENT_DC \| \
narshu	0:b4c2aa657754	169	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	170	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	171	#define RFM_TX_ON() RFM_SPI_16( \
narshu	0:b4c2aa657754	172	RFM_POWER_MANAGEMENT_DC \| \
narshu	0:b4c2aa657754	173	RFM_POWER_MANAGEMENT_ET \| \
narshu	0:b4c2aa657754	174	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	175	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	176	#define RFM_RX_ON() RFM_SPI_16( \
narshu	0:b4c2aa657754	177	RFM_POWER_MANAGEMENT_DC \| \
narshu	0:b4c2aa657754	178	RFM_POWER_MANAGEMENT_ER \| \
narshu	0:b4c2aa657754	179	RFM_POWER_MANAGEMENT_EBB \| \
narshu	0:b4c2aa657754	180	RFM_POWER_MANAGEMENT_ES \| \
narshu	0:b4c2aa657754	181	RFM_POWER_MANAGEMENT_EX )
narshu	0:b4c2aa657754	182	#define RFM_OFF() RFM_SPI_16(RFM_POWER_MANAGEMENT_DC)
narshu	0:b4c2aa657754	183	#endif
narshu	0:b4c2aa657754	184	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	185	//
narshu	0:b4c2aa657754	186	// 3. Frequency Setting Command
narshu	0:b4c2aa657754	187	//
narshu	0:b4c2aa657754	188	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	189
narshu	0:b4c2aa657754	190	#define RFM_FREQUENCY 0xA000
narshu	0:b4c2aa657754	191
narshu	0:b4c2aa657754	192	#define RFM_FREQ_315Band(v) (uint16_t)((v/10.0-31)*4000)
narshu	0:b4c2aa657754	193	#define RFM_FREQ_433Band(v) (uint16_t)((v/10.0-43)*4000)
narshu	0:b4c2aa657754	194	#define RFM_FREQ_868Band(v) (uint16_t)((v/20.0-43)*4000)
narshu	0:b4c2aa657754	195	#define RFM_FREQ_915Band(v) (uint16_t)((v/30.0-30)*4000)
narshu	0:b4c2aa657754	196
narshu	0:b4c2aa657754	197	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	198	//
narshu	0:b4c2aa657754	199	// 4. Data Rate Command
narshu	0:b4c2aa657754	200	//
narshu	0:b4c2aa657754	201	/////////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	202
narshu	0:b4c2aa657754	203	#define RFM_BAUD_RATE 9600
narshu	0:b4c2aa657754	204
narshu	0:b4c2aa657754	205	#define RFM_DATA_RATE 0xC600
narshu	0:b4c2aa657754	206
narshu	0:b4c2aa657754	207	#define RFM_DATA_RATE_CS 0xC680
narshu	0:b4c2aa657754	208	#define RFM_DATA_RATE_4800 0xC647
narshu	0:b4c2aa657754	209	#define RFM_DATA_RATE_9600 0xC623
narshu	0:b4c2aa657754	210	#define RFM_DATA_RATE_19200 0xC611
narshu	0:b4c2aa657754	211	#define RFM_DATA_RATE_38400 0xC608
narshu	0:b4c2aa657754	212	#define RFM_DATA_RATE_57600 0xC605
narshu	0:b4c2aa657754	213
narshu	0:b4c2aa657754	214	#define RFM_SET_DATARATE(baud) ( ((baud)<5400) ? (RFM_DATA_RATE_CS\|((43104/(baud))-1)) : (RFM_DATA_RATE\|((344828UL/(baud))-1)) )
narshu	0:b4c2aa657754	215
narshu	0:b4c2aa657754	216	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	217	//
narshu	0:b4c2aa657754	218	// 5. Receiver Control Command
narshu	0:b4c2aa657754	219	//
narshu	0:b4c2aa657754	220	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	221
narshu	0:b4c2aa657754	222	#define RFM_RX_CONTROL 0x9000
narshu	0:b4c2aa657754	223
narshu	0:b4c2aa657754	224	#define RFM_RX_CONTROL_P20_INT 0x9000 // Pin20 = ExternalInt
narshu	0:b4c2aa657754	225	#define RFM_RX_CONTROL_P20_VDI 0x9400 // Pin20 = VDI out
narshu	0:b4c2aa657754	226
narshu	0:b4c2aa657754	227	#define RFM_RX_CONTROL_VDI_FAST 0x9000 // fast VDI Response time
narshu	0:b4c2aa657754	228	#define RFM_RX_CONTROL_VDI_MED 0x9100 // medium
narshu	0:b4c2aa657754	229	#define RFM_RX_CONTROL_VDI_SLOW 0x9200 // slow
narshu	0:b4c2aa657754	230	#define RFM_RX_CONTROL_VDI_ON 0x9300 // Always on
narshu	0:b4c2aa657754	231
narshu	0:b4c2aa657754	232	#define RFM_RX_CONTROL_BW_400 0x9020 // bandwidth 400kHz
narshu	0:b4c2aa657754	233	#define RFM_RX_CONTROL_BW_340 0x9040 // bandwidth 340kHz
narshu	0:b4c2aa657754	234	#define RFM_RX_CONTROL_BW_270 0x9060 // bandwidth 270kHz
narshu	0:b4c2aa657754	235	#define RFM_RX_CONTROL_BW_200 0x9080 // bandwidth 200kHz
narshu	0:b4c2aa657754	236	#define RFM_RX_CONTROL_BW_134 0x90A0 // bandwidth 134kHz
narshu	0:b4c2aa657754	237	#define RFM_RX_CONTROL_BW_67 0x90C0 // bandwidth 67kHz
narshu	0:b4c2aa657754	238
narshu	0:b4c2aa657754	239	#define RFM_RX_CONTROL_GAIN_0 0x9000 // LNA gain 0db
narshu	0:b4c2aa657754	240	#define RFM_RX_CONTROL_GAIN_6 0x9008 // LNA gain -6db
narshu	0:b4c2aa657754	241	#define RFM_RX_CONTROL_GAIN_14 0x9010 // LNA gain -14db
narshu	0:b4c2aa657754	242	#define RFM_RX_CONTROL_GAIN_20 0x9018 // LNA gain -20db
narshu	0:b4c2aa657754	243
narshu	0:b4c2aa657754	244	#define RFM_RX_CONTROL_RSSI_103 0x9000 // DRSSI threshold -103dbm
narshu	0:b4c2aa657754	245	#define RFM_RX_CONTROL_RSSI_97 0x9001 // DRSSI threshold -97dbm
narshu	0:b4c2aa657754	246	#define RFM_RX_CONTROL_RSSI_91 0x9002 // DRSSI threshold -91dbm
narshu	0:b4c2aa657754	247	#define RFM_RX_CONTROL_RSSI_85 0x9003 // DRSSI threshold -85dbm
narshu	0:b4c2aa657754	248	#define RFM_RX_CONTROL_RSSI_79 0x9004 // DRSSI threshold -79dbm
narshu	0:b4c2aa657754	249	#define RFM_RX_CONTROL_RSSI_73 0x9005 // DRSSI threshold -73dbm
narshu	0:b4c2aa657754	250	//#define RFM_RX_CONTROL_RSSI_67 0x9006 // DRSSI threshold -67dbm // RF12B reserved
narshu	0:b4c2aa657754	251	//#define RFM_RX_CONTROL_RSSI_61 0x9007 // DRSSI threshold -61dbm // RF12B reserved
narshu	0:b4c2aa657754	252
narshu	0:b4c2aa657754	253	#define RFM_RX_CONTROL_BW(baud) (((baud)<8000) ? \
narshu	0:b4c2aa657754	254	RFM_RX_CONTROL_BW_67 : \
narshu	0:b4c2aa657754	255	( \
narshu	0:b4c2aa657754	256	((baud)<30000) ? \
narshu	0:b4c2aa657754	257	RFM_RX_CONTROL_BW_134 : \
narshu	0:b4c2aa657754	258	RFM_RX_CONTROL_BW_200 \
narshu	0:b4c2aa657754	259	))
narshu	0:b4c2aa657754	260
narshu	0:b4c2aa657754	261	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	262	//
narshu	0:b4c2aa657754	263	// 6. Data Filter Command
narshu	0:b4c2aa657754	264	//
narshu	0:b4c2aa657754	265	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	266
narshu	0:b4c2aa657754	267	#define RFM_DATA_FILTER 0xC228
narshu	0:b4c2aa657754	268
narshu	0:b4c2aa657754	269	#define RFM_DATA_FILTER_AL 0xC2A8 // clock recovery auto-lock
narshu	0:b4c2aa657754	270	#define RFM_DATA_FILTER_ML 0xC268 // clock recovery fast mode
narshu	0:b4c2aa657754	271	#define RFM_DATA_FILTER_DIG 0xC228 // data filter type digital
narshu	0:b4c2aa657754	272	#define RFM_DATA_FILTER_ANALOG 0xC238 // data filter type analog
narshu	0:b4c2aa657754	273	#define RFM_DATA_FILTER_DQD(level) (RFM_DATA_FILTER \| (level & 0x7))
narshu	0:b4c2aa657754	274
narshu	0:b4c2aa657754	275	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	276	//
narshu	0:b4c2aa657754	277	// 7. FIFO and Reset Mode Command
narshu	0:b4c2aa657754	278	//
narshu	0:b4c2aa657754	279	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	280
narshu	0:b4c2aa657754	281	#define RFM_FIFO 0xCA00
narshu	0:b4c2aa657754	282
narshu	0:b4c2aa657754	283	#define RFM_FIFO_AL 0xCA04 // FIFO Start condition sync-word/always
narshu	0:b4c2aa657754	284	#define RFM_FIFO_FF 0xCA02 // Enable FIFO fill
narshu	0:b4c2aa657754	285	#define RFM_FIFO_DR 0xCA01 // Disable hi sens reset mode
narshu	0:b4c2aa657754	286	#define RFM_FIFO_IT(level) (RFM_FIFO \| (( (level) & 0xF)<<4))
narshu	0:b4c2aa657754	287
narshu	0:b4c2aa657754	288	#define RFM_FIFO_OFF() RFM_SPI_16(RFM_FIFO_IT(8) \| RFM_FIFO_DR)
narshu	0:b4c2aa657754	289	#define RFM_FIFO_ON() RFM_SPI_16(RFM_FIFO_IT(8) \| RFM_FIFO_FF \| RFM_FIFO_DR)
narshu	0:b4c2aa657754	290
narshu	0:b4c2aa657754	291	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	292	//
narshu	0:b4c2aa657754	293	// 8. Receiver FIFO Read
narshu	0:b4c2aa657754	294	//
narshu	0:b4c2aa657754	295	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	296
narshu	0:b4c2aa657754	297	#define RFM_READ_FIFO() (RFM_SPI_16(0xB000) & 0xFF)
narshu	0:b4c2aa657754	298
narshu	0:b4c2aa657754	299	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	300	//
narshu	0:b4c2aa657754	301	// 9. AFC Command
narshu	0:b4c2aa657754	302	//
narshu	0:b4c2aa657754	303	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	304
narshu	0:b4c2aa657754	305	#define RFM_AFC 0xC400
narshu	0:b4c2aa657754	306
narshu	0:b4c2aa657754	307	#define RFM_AFC_EN 0xC401
narshu	0:b4c2aa657754	308	#define RFM_AFC_OE 0xC402
narshu	0:b4c2aa657754	309	#define RFM_AFC_FI 0xC404
narshu	0:b4c2aa657754	310	#define RFM_AFC_ST 0xC408
narshu	0:b4c2aa657754	311
narshu	0:b4c2aa657754	312	// Limits the value of the frequency offset register to the next values:
narshu	0:b4c2aa657754	313
narshu	0:b4c2aa657754	314	#define RFM_AFC_RANGE_LIMIT_NO 0xC400 // 0: No restriction
narshu	0:b4c2aa657754	315	#define RFM_AFC_RANGE_LIMIT_15_16 0xC410 // 1: +15 fres to -16 fres
narshu	0:b4c2aa657754	316	#define RFM_AFC_RANGE_LIMIT_7_8 0xC420 // 2: +7 fres to -8 fres
narshu	0:b4c2aa657754	317	#define RFM_AFC_RANGE_LIMIT_3_4 0xC430 // 3: +3 fres to -4 fres
narshu	0:b4c2aa657754	318
narshu	0:b4c2aa657754	319	// fres=2.5 kHz in 315MHz and 433MHz Bands
narshu	0:b4c2aa657754	320	// fres=5.0 kHz in 868MHz Band
narshu	0:b4c2aa657754	321	// fres=7.5 kHz in 915MHz Band
narshu	0:b4c2aa657754	322
narshu	0:b4c2aa657754	323	#define RFM_AFC_AUTO_OFF 0xC400 // 0: Auto mode off (Strobe is controlled by microcontroller)
narshu	0:b4c2aa657754	324	#define RFM_AFC_AUTO_ONCE 0xC440 // 1: Runs only once after each power-up
narshu	0:b4c2aa657754	325	#define RFM_AFC_AUTO_VDI 0xC480 // 2: Keep the foffset only during receiving(VDI=high)
narshu	0:b4c2aa657754	326	#define RFM_AFC_AUTO_INDEPENDENT 0xC4C0 // 3: Keep the foffset value independently trom the state of the VDI signal
narshu	0:b4c2aa657754	327
narshu	0:b4c2aa657754	328	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	329	//
narshu	0:b4c2aa657754	330	// 10. TX Configuration Control Command
narshu	0:b4c2aa657754	331	//
narshu	0:b4c2aa657754	332	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	333
narshu	0:b4c2aa657754	334	#define RFM_TX_CONTROL 0x9800
narshu	0:b4c2aa657754	335
narshu	0:b4c2aa657754	336	#define RFM_TX_CONTROL_POW_0 0x9800
narshu	0:b4c2aa657754	337	#define RFM_TX_CONTROL_POW_3 0x9801
narshu	0:b4c2aa657754	338	#define RFM_TX_CONTROL_POW_6 0x9802
narshu	0:b4c2aa657754	339	#define RFM_TX_CONTROL_POW_9 0x9803
narshu	0:b4c2aa657754	340	#define RFM_TX_CONTROL_POW_12 0x9804
narshu	0:b4c2aa657754	341	#define RFM_TX_CONTROL_POW_15 0x9805
narshu	0:b4c2aa657754	342	#define RFM_TX_CONTROL_POW_18 0x9806
narshu	0:b4c2aa657754	343	#define RFM_TX_CONTROL_POW_21 0x9807
narshu	0:b4c2aa657754	344	#define RFM_TX_CONTROL_MOD_15 0x9800
narshu	0:b4c2aa657754	345	#define RFM_TX_CONTROL_MOD_30 0x9810
narshu	0:b4c2aa657754	346	#define RFM_TX_CONTROL_MOD_45 0x9820
narshu	0:b4c2aa657754	347	#define RFM_TX_CONTROL_MOD_60 0x9830
narshu	0:b4c2aa657754	348	#define RFM_TX_CONTROL_MOD_75 0x9840
narshu	0:b4c2aa657754	349	#define RFM_TX_CONTROL_MOD_90 0x9850
narshu	0:b4c2aa657754	350	#define RFM_TX_CONTROL_MOD_105 0x9860
narshu	0:b4c2aa657754	351	#define RFM_TX_CONTROL_MOD_120 0x9870
narshu	0:b4c2aa657754	352	#define RFM_TX_CONTROL_MOD_135 0x9880
narshu	0:b4c2aa657754	353	#define RFM_TX_CONTROL_MOD_150 0x9890
narshu	0:b4c2aa657754	354	#define RFM_TX_CONTROL_MOD_165 0x98A0
narshu	0:b4c2aa657754	355	#define RFM_TX_CONTROL_MOD_180 0x98B0
narshu	0:b4c2aa657754	356	#define RFM_TX_CONTROL_MOD_195 0x98C0
narshu	0:b4c2aa657754	357	#define RFM_TX_CONTROL_MOD_210 0x98D0
narshu	0:b4c2aa657754	358	#define RFM_TX_CONTROL_MOD_225 0x98E0
narshu	0:b4c2aa657754	359	#define RFM_TX_CONTROL_MOD_240 0x98F0
narshu	0:b4c2aa657754	360	#define RFM_TX_CONTROL_MP 0x9900
narshu	0:b4c2aa657754	361
narshu	0:b4c2aa657754	362	#define RFM_TX_CONTROL_MOD(baud) (((baud)<8000) ? \
narshu	0:b4c2aa657754	363	RFM_TX_CONTROL_MOD_45 : \
narshu	0:b4c2aa657754	364	( \
narshu	0:b4c2aa657754	365	((baud)<20000) ? \
narshu	0:b4c2aa657754	366	RFM_TX_CONTROL_MOD_60 : \
narshu	0:b4c2aa657754	367	( \
narshu	0:b4c2aa657754	368	((baud)<30000) ? \
narshu	0:b4c2aa657754	369	RFM_TX_CONTROL_MOD_75 : \
narshu	0:b4c2aa657754	370	( \
narshu	0:b4c2aa657754	371	((baud)<40000) ? \
narshu	0:b4c2aa657754	372	RFM_TX_CONTROL_MOD_90 : \
narshu	0:b4c2aa657754	373	RFM_TX_CONTROL_MOD_120 \
narshu	0:b4c2aa657754	374	) \
narshu	0:b4c2aa657754	375	) \
narshu	0:b4c2aa657754	376	))
narshu	0:b4c2aa657754	377
narshu	0:b4c2aa657754	378	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	379	//
narshu	0:b4c2aa657754	380	// 11. Transmitter Register Write Command
narshu	0:b4c2aa657754	381	//
narshu	0:b4c2aa657754	382	/////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	383
narshu	0:b4c2aa657754	384	//#define RFM_WRITE(byte) RFM_SPI_16(0xB800 \| ((byte) & 0xFF))
narshu	0:b4c2aa657754	385	#define RFM_WRITE(byte) RFM_SPI_16(0xB800 \| (byte) )
narshu	0:b4c2aa657754	386
narshu	0:b4c2aa657754	387	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	388	//
narshu	0:b4c2aa657754	389	// 12. Wake-up Timer Command
narshu	0:b4c2aa657754	390	//
narshu	0:b4c2aa657754	391	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	392
narshu	0:b4c2aa657754	393	#define RFM_WAKEUP_TIMER 0xE000
narshu	0:b4c2aa657754	394	#define RFM_WAKEUP_SET(time) RFM_SPI_16(RFM_WAKEUP_TIMER \| (time))
narshu	0:b4c2aa657754	395
narshu	0:b4c2aa657754	396	#define RFM_WAKEUP_480s (RFM_WAKEUP_TIMER \|(11 << 8)\| 234)
narshu	0:b4c2aa657754	397	#define RFM_WAKEUP_240s (RFM_WAKEUP_TIMER \|(10 << 8)\| 234)
narshu	0:b4c2aa657754	398	#define RFM_WAKEUP_120s (RFM_WAKEUP_TIMER \|(9 << 8)\| 234)
narshu	0:b4c2aa657754	399	#define RFM_WAKEUP_119s (RFM_WAKEUP_TIMER \|(9 << 8)\| 232)
narshu	0:b4c2aa657754	400
narshu	0:b4c2aa657754	401	#define RFM_WAKEUP_60s (RFM_WAKEUP_TIMER \|(8 << 8) \| 235)
narshu	0:b4c2aa657754	402	#define RFM_WAKEUP_59s (RFM_WAKEUP_TIMER \|(8 << 8) \| 230)
narshu	0:b4c2aa657754	403
narshu	0:b4c2aa657754	404	#define RFM_WAKEUP_30s (RFM_WAKEUP_TIMER \|(7 << 8) \| 235)
narshu	0:b4c2aa657754	405	#define RFM_WAKEUP_29s (RFM_WAKEUP_TIMER \|(7 << 8) \| 227)
narshu	0:b4c2aa657754	406
narshu	0:b4c2aa657754	407	#define RFM_WAKEUP_8s (RFM_WAKEUP_TIMER \|(5 << 8) \| 250)
narshu	0:b4c2aa657754	408	#define RFM_WAKEUP_7s (RFM_WAKEUP_TIMER \|(5 << 8) \| 219)
narshu	0:b4c2aa657754	409	#define RFM_WAKEUP_6s (RFM_WAKEUP_TIMER \|(6 << 8) \| 94)
narshu	0:b4c2aa657754	410	#define RFM_WAKEUP_5s (RFM_WAKEUP_TIMER \|(5 << 8) \| 156)
narshu	0:b4c2aa657754	411	#define RFM_WAKEUP_4s (RFM_WAKEUP_TIMER \|(5 << 8) \| 125)
narshu	0:b4c2aa657754	412	#define RFM_WAKEUP_1s (RFM_WAKEUP_TIMER \|(2 << 8) \| 250)
narshu	0:b4c2aa657754	413	#define RFM_WAKEUP_900ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 225)
narshu	0:b4c2aa657754	414	#define RFM_WAKEUP_800ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 200)
narshu	0:b4c2aa657754	415	#define RFM_WAKEUP_700ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 175)
narshu	0:b4c2aa657754	416	#define RFM_WAKEUP_600ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 150)
narshu	0:b4c2aa657754	417	#define RFM_WAKEUP_500ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 125)
narshu	0:b4c2aa657754	418	#define RFM_WAKEUP_400ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 100)
narshu	0:b4c2aa657754	419	#define RFM_WAKEUP_300ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 75)
narshu	0:b4c2aa657754	420	#define RFM_WAKEUP_200ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 50)
narshu	0:b4c2aa657754	421	#define RFM_WAKEUP_100ms (RFM_WAKEUP_TIMER \|(2 << 8) \| 25)
narshu	0:b4c2aa657754	422
narshu	0:b4c2aa657754	423	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	424	//
narshu	0:b4c2aa657754	425	// 13. Low Duty-Cycle Command
narshu	0:b4c2aa657754	426	//
narshu	0:b4c2aa657754	427	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	428
narshu	0:b4c2aa657754	429	#define RFM_LOW_DUTY_CYCLE 0xC800
narshu	0:b4c2aa657754	430
narshu	0:b4c2aa657754	431	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	432	//
narshu	0:b4c2aa657754	433	// 14. Low Battery Detector Command
narshu	0:b4c2aa657754	434	//
narshu	0:b4c2aa657754	435	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	436
narshu	0:b4c2aa657754	437	#define RFM_LOW_BATT_DETECT 0xC000
narshu	0:b4c2aa657754	438	#define RFM_LOW_BATT_DETECT_D_1MHZ 0xC000
narshu	0:b4c2aa657754	439	#define RFM_LOW_BATT_DETECT_D_1_25MHZ 0xC020
narshu	0:b4c2aa657754	440	#define RFM_LOW_BATT_DETECT_D_1_66MHZ 0xC040
narshu	0:b4c2aa657754	441	#define RFM_LOW_BATT_DETECT_D_2MHZ 0xC060
narshu	0:b4c2aa657754	442	#define RFM_LOW_BATT_DETECT_D_2_5MHZ 0xC080
narshu	0:b4c2aa657754	443	#define RFM_LOW_BATT_DETECT_D_3_33MHZ 0xC0A0
narshu	0:b4c2aa657754	444	#define RFM_LOW_BATT_DETECT_D_5MHZ 0xC0C0
narshu	0:b4c2aa657754	445	#define RFM_LOW_BATT_DETECT_D_10MHZ 0xC0E0
narshu	0:b4c2aa657754	446
narshu	0:b4c2aa657754	447	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	448	//
narshu	0:b4c2aa657754	449	// 15. Status Read Command
narshu	0:b4c2aa657754	450	//
narshu	0:b4c2aa657754	451	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	452
narshu	0:b4c2aa657754	453	#define RFM_READ_STATUS() RFM_SPI_16(0x0000)
narshu	0:b4c2aa657754	454	#define RFM_READ_STATUS_FFIT() SPI_1 (0x00)
narshu	0:b4c2aa657754	455	#define RFM_READ_STATUS_RGIT RFM_READ_STATUS_FFIT
narshu	0:b4c2aa657754	456
narshu	0:b4c2aa657754	457	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	458
narshu	0:b4c2aa657754	459	// RFM air protocol flags:
narshu	0:b4c2aa657754	460
narshu	0:b4c2aa657754	461	#define RFMPROTO_FLAGS_BITASK_PACKETTYPE 0b11000000 //!< the uppermost 2 bits of the flags field encode the packettype
narshu	0:b4c2aa657754	462	#define RFMPROTO_FLAGS_PACKETTYPE_BROADCAST 0b00000000 //!< broadcast packettype (message from hr20, protocol; step 1)
narshu	0:b4c2aa657754	463	#define RFMPROTO_FLAGS_PACKETTYPE_COMMAND 0b01000000 //!< command packettype (message to hr20, protocol; step 2)
narshu	0:b4c2aa657754	464	#define RFMPROTO_FLAGS_PACKETTYPE_REPLY 0b10000000 //!< reply packettype (message from hr20, protocol; step 3)
narshu	0:b4c2aa657754	465	#define RFMPROTO_FLAGS_PACKETTYPE_SPECIAL 0b11000000 //!< currently unused packettype
narshu	0:b4c2aa657754	466
narshu	0:b4c2aa657754	467	#define RFMPROTO_FLAGS_BITASK_DEVICETYPE 0b00011111 //!< the lowermost 5 bytes denote the device type. this way other sensors and actors may coexist
narshu	0:b4c2aa657754	468	#define RFMPROTO_FLAGS_DEVICETYPE_OPENHR20 0b00010100 //!< topen HR20 device type. 10100 is for decimal 20
narshu	0:b4c2aa657754	469
narshu	0:b4c2aa657754	470	#define RFMPROTO_IS_PACKETTYPE_BROADCAST(FLAGS) ( RFMPROTO_FLAGS_PACKETTYPE_BROADCAST == ((FLAGS) & RFMPROTO_FLAGS_BITASK_PACKETTYPE) )
narshu	0:b4c2aa657754	471	#define RFMPROTO_IS_PACKETTYPE_COMMAND(FLAGS) ( RFMPROTO_FLAGS_PACKETTYPE_COMMAND == ((FLAGS) & RFMPROTO_FLAGS_BITASK_PACKETTYPE) )
narshu	0:b4c2aa657754	472	#define RFMPROTO_IS_PACKETTYPE_REPLY(FLAGS) ( RFMPROTO_FLAGS_PACKETTYPE_REPLY == ((FLAGS) & RFMPROTO_FLAGS_BITASK_PACKETTYPE) )
narshu	0:b4c2aa657754	473	#define RFMPROTO_IS_PACKETTYPE_SPECIAL(FLAGS) ( RFMPROTO_FLAGS_PACKETTYPE_SPECIAL == ((FLAGS) & RFMPROTO_FLAGS_BITASK_PACKETTYPE) )
narshu	0:b4c2aa657754	474	#define RFMPROTO_IS_DEVICETYPE_OPENHR20(FLAGS) ( RFMPROTO_FLAGS_DEVICETYPE_OPENHR20 == ((FLAGS) & RFMPROTO_FLAGS_BITASK_DEVICETYPE) )
narshu	0:b4c2aa657754	475
narshu	0:b4c2aa657754	476	///////////////////////////////////////////////////////////////////////////////
narshu	0:b4c2aa657754	477
narshu	0:b4c2aa657754	478	#endif

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	25 Mar 2012
Imports:	4
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	1
Followers:	1

RF_defs.h@0:b4c2aa657754, 2012-03-25 (annotated)

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