Cattron North America 79543 LRM Module User Manual 9S02 7954 A001 FCC Manual

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Product Development
CATTRON Engineering Group
LRM Radio Module – Host Interface Specification
Manual
Document p/n: 9S02-7954-A001 Rev.A
CONFIDENTIALITY NOTICE
This correspondence and all information contained within are the exclusive, confidential and proprietary
property of Cattron-Theimeg Inc. it is not to be reproduced, nor is it or any portion of it to be used by or
disclosed to any other individual or legal entity, without the prior, written approval of Cattron-Theimeg Inc.
Furthermore, the information contained within this correspondence is also to be handled in accordance
with any and all confidentiality agreements between Cattron-Theimeg Inc. and the receiver or user of this
information.
 2010 Cattron-Theimeg Inc.
LRM Radio Module – Host Interface Specification
Document p/n: 9S02-7954-A001 Rev.A
CATTRON Engineering Group
Revision History
Date
Revision
2010-10-06 EM1
Description
Initial draft
Signature / Date
Prepared
Pierre Montreuil
Verified
Approved
2010-10-06 EM2
General revision.
Removed LQI measurement
Updated the configuration section (section 5)
Prepared
Pierre Montreuil
Verified
Approved
2012-01-30 A
Fig 4.8 and 4.9 - Remove remaining references to LQI from
drawings.
Table 4.2 – Rename ESC_END for ESC_SOF
[LaB] Added demodulated analog output on pin 48 and
GND on pin 50
Prepared
Pierre Montreuil
Verified
Approved
Prepared
Verified
Approved
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Table of Contents
1.
INTRODUCTION ........................................................................................................................................... 1-1
1.1
1.2
1.3
1.4
PURPOSE..........................................................................................................................................................1-1
SCOPE ..............................................................................................................................................................1-1
APPLICABILITY ................................................................................................................................................1-1
DEFINITIONS, ACRONYMS ................................................................................................................................1-1
1.4.1 Definitions ..............................................................................................................................................1-1
1.4.2 Acronyms ................................................................................................................................................1-1
1.5
REFERENCES....................................................................................................................................................1-1
2.
FEATURES SUMMARY ................................................................................................................................ 2-1
3.
HOST INTERFACE DEFINITION ............................................................................................................... 3-2
3.1
3.2
4.
PINS ASSIGNMENT ...........................................................................................................................................3-2
SIGNALS DESCRIPTION .....................................................................................................................................3-3
LRM CONFIGURATION CONCEPT .......................................................................................................... 4-4
4.1
4.2
4.3
I2C ..................................................................................................................................................................4-4
SPI ..................................................................................................................................................................4-4
CONSOLE INTERFACE.......................................................................................................................................4-4
4.3.1 “Write” command ...................................................................................................................................4-4
4.3.2 “Read” command ....................................................................................................................................4-5
4.3.3 “Help” command ....................................................................................................................................4-5
4.4
STAND-ALONE TEST MODE .............................................................................................................................4-5
4.5
FIRMWARE DOWNLOAD ...................................................................................................................................4-6
5.
5.1
REGISTERS MAP SUMMARY .................................................................................................................... 5-7
REGISTERS DESCRIPTION FIELDS ......................................................................................................................5-7
6.
REGISTERS .................................................................................................................................................... 6-8
6.1
SECTION 1 REGISTERS: HARDWARE INFORMATION BLOCK..............................................................................6-8
6.1.1 HW Part Number ....................................................................................................................................6-8
6.1.2 HW Revision ..........................................................................................................................................6-8
6.1.3 Serial Number .........................................................................................................................................6-8
6.1.4 Default Operation mode ..........................................................................................................................6-8
SECTION 2 REGISTERS: SOFTWARE INFORMATION BLOCK ...............................................................................6-8
6.2.1 SW Part Number .....................................................................................................................................6-9
6.2.2 SW Revision ...........................................................................................................................................6-9
6.2.3 Register Map Version number ................................................................................................................6-9
SECTION 4 REGISTERS: HOST INTERFACE CONFIGURATION .............................................................................6-9
SECTION 5 REGISTERS: RF INTERFACE CONFIGURATION ...............................................................................6-10
SECTION 6 REGISTERS: RF OPERATION MODES – SPECIFIC CONFIGURATIONS ................................................6-10
6.5.1 RF Operation mode ...............................................................................................................................6-10
6.5.2 RF Operation mode specific parameters ...............................................................................................6-11
SECTION 7 REGISTERS: TEST COMMANDS AND PARAMETERS.........................................................................6-11
6.6.1 Test modes ............................................................................................................................................6-11
6.2
6.3
6.4
6.5
6.6
7.
OPERATION MODE SPECIFIC PARAMETERS.................................................................................... 7-12
8.
TEST-SPECIFIC PARAMETERS .............................................................................................................. 8-13
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FCC Part 15.105(b) Warning Statement
NOTE: This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and
used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the user
is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver
is connected.
-Consult the dealer or an experienced radio/TV technician for help.
IC RSS-GEN, Sec 7.1.2 Warning Statement- (Required for Transmitters)
ENGLISH:
Under Industry Canada regulations, this radio transmitter may only operate using an
antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry
Canada. To reduce potential radio interference to other users, the antenna type and its gain
should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more
than that necessary for successful communication.
FRENCH:
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut
fonctionner avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour
l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage
radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain
de sorte que la puissance isotrope rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité
nécessaire à l'établissement d'une communication satisfaisante.
IC RSS-GEN, Sec 7.1.2 Warning Statement(Required for Transmitters w/ detachable antennas)
ENGLISH:
This radio transmitter (IC: 1007A-79543,Model Number: 79543TRX) has been approved by
Industry Canada to operate with the antenna types listed
below with the maximum permissible gain and required antenna impedance for each
antenna type indicated. Antenna types not included in this list, having a gain greater than
the maximum gain indicated for that type, are strictly prohibited for use with this device.
FRENCH:
Le présent émetteur radio (IC :1007A-79543, Numéro de modèle: 79543TRX) a été approuvé
par Industrie Canada pour fonctionner avec les types d'antennes énumérés ci-dessous ayant un
gain admissible maximal et l'impédance requise pour chaque type d'antenne. Les types
d'antennes non inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué,
sont strictement interdits pour l'exploitation de l'émetteur.
IC RSS-102, Sec 2.6 Warning Statements
ENGLISH:
The applicant is responsible for providing proper instructions to the user of the radio device,
and any usage restrictions, including limits of exposure durations. The user manual shall
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provide installation and operation instructions, as well as any special usage conditions, to
ensure compliance with SAR and/or RF field strength limits. For instance, compliance
distance shall be clearly stated in the user manual.
FRENCH:
Le requérant est responsable de fournir les instructions adéquates pour l’usage de
l’équipement radio, ainsi que toutes les limitations, incluant les durées maximales
d’exposition. Le manuel utilisateur doit fournir les instructions d’installation et d’opération,
ainsi que toutes les conditions d’utilisation particulières, pour assurer la conformité avec les
limites d’exposition aux champs électromagnétiques radiofréquences et/ou SAR.
Only the following authorized antennas may be used with the equipment:
2PCA-7839-A001, 50Ohm, Gain:-0dBi
2PCA-8339-X301, 50Ohm, Gain:-5.0dBi
PRT-0000430 (EXD-450-BN), 50Ohm, Gain:-0dBi
2PCA-8430-X001, 50Ohm, Gain:-2.0dBi
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1.
1.1
Introduction
Introduction
Purpose
A new family of RF module, the LRM family, is being developed by Cattron. This family includes high-selectivity
radios covering several RF bands used world-wide for remote control applications. They are built around a common
architecture, and present a uniform host interface definition. The host interface is used for data communication and
radio configuration.
1.2
Scope
This document describes the host interface signal definitions, timings, operation mode, available functionalities, and
provide details about its integration to Unity products. This document does not cover RF specifications or power
supply specifications.
1.3
Applicability
Applies to LRM family members, P/N 2PCA-7954-xxxx
1.4
Definitions, Acronyms
1.4.1 Definitions
1.4.2 Acronyms
1.5
References
[1] “LRM – Multi band, Narrow Band, High Selectivity Transceiver Requirements”, Cattron P/N 9S017954-A001
[2] “Unity RF Telegrams Format”, Cattron P/N 9S01-7640-A101
[3] “LRM Radio Module – Configuration Registers Specifications”, Cattron P/N 9S02-7954-A002
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2.
Features Summary
Features Summary
The LRM design addresses in first place Unity applications requirements. Its interface however is general enough to
allow compatibility to other legacy Cattron products.
•
Direct electrical compatibility to Unity RF interface – The interface is defined for natural integration to Unity
product line.
•
On-board CPU – The interface is controlled by an on-board Renesas CPU. This CPU controls also the details of
operation of the RF peripherals. This approach has several advantages:
a. Unified host interface definition – A single host interface can be defined for all LRM family members.
b. Low requirement on Host CPU resources – The on-board CPU takes care of most aspects of RF control and
timings. This allows releasing CPU resources (processing time, ROM/RAM space, hardware timers) that
become available for more features addition.
c. Simple Host device drivers - Most of driver firmware complexity is transferred on the radio CPU; the Host
device driver is much simpler, easier to test, and not as critical in regard to timings.
•
Minimum buffers/Minimum Delay – Radio CPU firmware is implemented to provide a “almost transparent”
operation; transmission and reception delays are kept to a minimum
•
Several interface modes – Several interface modes are supported in order to allow integration with other Cattron
legacy products:
a. Data interface - support for synchronous and asynchronous serial link.
b. Configuration interface - support for I2C, SPI and asynchronous serial access.
•
Stand-alone operation for firmware download and production test – The LRM can interface almost directly to a
PC serial port for firmware download and for testing (no need for CPU board); only a TTL/RS232 translator is
required (such as Cattron flashbox).
•
Support for advanced feature – The LRM family is designed to support advanced features such as FHSS
(Frequency Hopping Spread Spectrum) and Adaptive Channel Allocation, with minimal impact on Host
firmware.
These different aspects are covered in the rest of this document.
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3.
Host Interface Definition
Host Interface Definition
3.1
Pins Assignment
Description
IO
Signal
Pin
Number
49
50
47
48
45
46
43
44
41
42
Signal
IO
GND
Description
Ground
RX_BB
RX Baseband signal
I2C clock /
SPI clock
IO/
I2C_SCL /
SPI_SCK
39
40
SPI_PLE
SPI Strobe
SPI data input
SPI_PDI
37
38
I2C_SDA /
SPI_PDO
IO /
I2C Data /
SPI data output
35
33
31
36
34
32
!READY
29
30
28
26
24
TXD
Transmit Data
!TX_EN
Tx Enable
Data transfer Handshaking
Signal
3.3V DC supply
3V3
Receive data
RXD
RX Enable
Serial port Configuration
mode
!RX_EN
27
25
23
!CONFIG
21
22
GND
19
17
15
13
11
20
18
16
14
12
10
DCLK
Reset
CPU flash mode
Ground
Voltage Supply, RF power
amplifier
!RESET
!PGM
GND-PA
VPA
Ground
GND-PA
VPA
Data Clock
Ground
Voltage Supply, RF power
amplifier
Table 3.1 – Host Interface pins assignment
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3.2
Host Interface Definition
Signals Description
Pin
Nb
Signal
Name
I/O
1, 2
VPA
Input
Description
Category
Voltage Supply, RF power amplifier.
Power supply
This supply is needed when an optional piggy-back power amplifier board is
used. Specifications (voltage, current) depend on piggy-back board used.
3, 4
GND-PA
GND, RF power amplifier.
Power supply
This ground is connected internally to the module ground. It does not need to
be connected when the module is used without PA
22, 50 GND
System ground
Power supply
27
3V3
Input
3.3 V power supply voltage input (Vcc)
Power supply
!PGM
Input
Used to download on-board CPU firmware. Connect this signal to GND at
power-up to force the CPU to enter firmware programming mode. Otherwise,
connect to Vcc or leave unconnected
Module control
!RESET
Input
Main reset (active low). When reset is asserted, the content of the internal
registers is lost.
Module control
29
!READY
Output
Handshaking signal for transmit or receive data on the host interface.
Data
Transmission
23
!RX_EN
Input
Receive Enable (active low). Used to place the RF module in received mode
Data
Transmission
*Note: when !TX_EN and !RX_EN are asserted simultaneously, the module is
placed in STANDBY mode (low power consumption, internal registers
conservation)
24
!TX_EN
Input
Transmit Enable (active low). Used to activate telegram transmit process
Data
Transmission
25
RXD
Output
Receive Data.
Data
Transmission
26
TXD
Input
Transmit Data
Data
Transmission
20
DCLK
Output
Data Clock. Active when serial port is configured in Synchronous Mode
Data
Transmission
21
!CONFIG
Input
Used to configure the Data transmission signals RXD and TXD for module
configuration.
Asserting can be done in IDLE state only. Active low
Configuration
interface
37
SPI_PDI
Input
If configuration interface configured for SPI: PDI (Peripheral Data In)
Configuration
interface
38
I2C_SDA
SPI_PDO
Bidi /
Output
If configuration interface configured for:
I2C: I2C SDA signal (data)
SPI: PDO (Peripheral Data Out)
Configuration
interface
39
I2C_SCL
SPI_SCLK
Bidi /
Input
If configuration interface configured for:
I2C: I2C SCL signal (clock)
SPI: SCLK (Serial Clock)
Configuration
interface
40
SPI_PLE
Input
If configuration interface is configured for SPI
PLE: (Peripheral Data Load Enable)
Configuration
interface
48
RX_BB
Output
Analog demodulated RX signal
Data
Transmission
Table 3.2 - Host Interface signals description
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4.
LRM Configuration Concept
LRM Configuration Concept
All LRM configuration and status parameters are accessible through addressable registers.
All parameters can be read in any of the following state: IDLE, RX, TX
All writable parameters can be written in the following state: IDLE only
In order to facilitate adaptation to different platforms, the LRM configuration registers can be accessed using anyone
of three methods: I2C, SPI or serial asynchronous with ASCII strings.
The definition of the configuration registers is given in reference [3]. This section addresses the basic description of
all these three methods.
4.1
I2C
Signals I2C_SDA and I2C_SCL are used, according to the I2C standard protocol.
The LRM I2C configuration interface LRM emulates the behavior of the 1Kbytes I2C E2PROM found in all Unity
RF modules. This way, I2C operation is consistent for all Unity radios.
•
Device Address: 0xA0 (same as other Unity RF modules)
•
Device select code:
•
Write operations: supports “Byte write” and “Page write”.
•
Read operations: supports “Random Address Read” and “Sequential Random Read”.
For more details, refer to the M24C08 serial I2C E2PROM datasheet.
4.2
SPI
Signals SPI_PDO, SPI_PDI, SPI_CLK and SPI_PLE are used.
[TBD: Timings. (the LRM is a clock consumer)]
4.3
Console Interface
The serial interface configuration port is enabled by asserting !CONFIG signal; the serial interface is automatically
reconfigured in asynchronous mode, running at 38400bps, 8N1. All ASCII strings received are interpreted as
configuration commands. This mode is particularly useful for stand-alone testing, when the unit can be controlled
from a PC or by an operator/tester using a terminal emulation program.
4.3.1 “Write” command
wrCmd register value , where:
wrCmd = write command. w or wr can be used and are equivalent
register = register identification. Can use the register name or register address
value
= value to be written, in decimal or hexadecimal format. Hexadecimal values are preceded by ‘0x’
Examples:
wr txf 915000000
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wr 0x80 18
LRM Configuration Concept
: Write 18 to register address 0x80
wr txf 915000000 0x80 18: Concatenate the two writes above in a single instruction
4.3.2 “Read” command
rdCmd reg where:
rdCmd= read command. r or rd can be used and are equivalent
reg
= register identification. Can use the register name or register address
Examples:
rd txf
: Reads register txf (Tx frequency)
rd 0x80
: Reads register address 0x80
rd txf 0x80
: Reads registers txf and 0x80 in a single instruction
4.3.3 “Help” command
helpCmd where:
helpCmd= help command. h, help or ? can be used and are equivalent.
The LRM responds with the list off all available configuration registers.
4.4
Stand-Alone Test Mode
The LRM can be operated in stand-alone mode for production/service tests. In this case, only a 3.3VDC supply is
needed, and a RS232/TTL transceiver (like Cattron FLASHBOX) to connect to a PC serial port.
Figure 4.1 - LRM connection for stand-alone operation
The LRM will support several built-in test modes to ease testing from a PC. For example
a. Transmission Tests
- Generation of different type of carrier: unmodulated (CW), or modulated with “101010..” or pseudo-random
sequence
- Automatic generation of test RF frames with predefined content
b. Reception Tests
- Measure PER (packet error rate) when receiving the predefined test RF frames
- Measure RF input level
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LRM Configuration Concept
More details about the test modes can be found in reference [3].
4.5
Firmware Download
As shown in Figure 4.2, the LRM firmware can be downloaded using the Cattron FLASHBOX, as the rest of Unity
products family. A proper adapter needs to be used to fit to the LRM host interface connector.
Figure 4.2 - LRM firmware programming setup using the FLASHBOX
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5.
Registers Map Summary
Registers Map Summary
5.1
Registers description fields
The registers are specified by the following parameters
1.
Register address: This address can be used from the console, I2C or SPI accesses.
2.
Parameter type:
TYPE
Description
BOOL
Boolean value: 0 or 1
UINT8
8 bits value, unsigned
INT8
8 bits value, signed
UINT16
16 bits value, unsigned
INT16
16 bits value, signed
UINT32
32 bits value, unsigned
INT32
32 bits value, signed
CHAR
ASCII-encoded character
3.
Array Size: Number of instances of this register. Each instance is referred to by using the keyword appended
with the instance number. Ex: reg0, reg1, reg2, ….
4.
Access Type:
Access Type
Description
Read only
Write only
RW
Read/Write
WP
Write-protected
RWP
Read/Write-protected
“Write protected” registers cannot be written, unless the correct key code has been written in the WP unlock key
register.
5.
Keyword: keyword use for console access
6.
Description: description printed on the console after a help command.
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6.
Registers
Registers
6.1
Section 1 Registers: Hardware Information Block
Section 1: Hardware Information Block
Addr
Type
Array
Size
Access
Keyword
Description
0x00
0x04
0x12
0x16
0x26
0x40
0x43
UINT8
CHAR
CHAR
CHAR
UINT8
UINT8
UINT16
14
16
26
RWP
RWP
RWP
RWP
RWP
RWP
RWP
id
hwpn
hwrev
sn
sp
cmdef
crc
RF module ID
HW Part Number
HW Revision
Serial Number
Spare
Default operation mode
HIB CRC (Hardware Info Block)
Details
Reserved for future usage.
This section is formatted according the standard Unity RF modules E2PROM data format, described in reference [3].
Hardware Information Block registers are write-protected; writes operations are allowed after the proper key code
has been written in the WP unlock key register
6.1.1
HW Part Number
Hardware part number is a 14 characters ASCII string formatted according to Cattron standard part number format;
[4 digits prefix]-[4 digits number]-[4 digits suffix]. Example: “2PCA-7954-A001”
6.1.2
HW Revision
This field is a 4 characters ASCII representation of the HW Revision. Cattron hardware parts revision is composed
of 2 segments. The first segment is made of one or two letters followed with one or two optional numerical digits.
revision. Examples: “PP3”, “A”
6.1.3
Serial Number
A 16 digits field is reserved for serial numbers. Serial numbers format is not predefined.
6.1.4
Default Operation mode
Default value for the LRM operation mode. LRM operation modes are described in section 6.
6.2
Section 2 Registers: Software Information Block
Section 2: Software Information Block
Addr
Type
Array
Size
Access
Keyword
Description
Details
0x46
CHAR
14
swpn
SW Part Number
Section 3.2.1
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0x54
0x5E
CHAR
UINT16
10
swrev
mapver
Registers
SW Revision
Register map version
Section 3.2.2
Section 3.2.3
Software Information Block registers are read-only.
6.2.1
SW Part Number
Software part number is a 14 characters ASCII string formatted according to Cattron standard part number format;
[4 digits prefix]-[4 digits number]-[4 digits suffix]. Example: “3SOF-7954-A001”
6.2.2
SW Revision
Software revision is given by 3 segments separated by commas. The segments are typically but not restricted to
numbers. Ex: “3.12.7”, “1.2.7B”,
A 10 characters long field is defined..
6.2.3
Register Map Version number
This is number is represented by numerical values. Ex: 1.34;
- The second segment is incremented each time new registers are added to the Register map, and this addition has
no impact on backward compatibility. It is encoded on in the LSB.
- The first segment is incremented each time a change to the Register Map has any impact on backward
compatibility. It is encoded in the MSB.
For example, “1.34” would be encoded as 0x0122.
6.3
Section 4 Registers: Host Interface Configuration
These parameters control the operation of the host interface.
Section 4: Host Interface Configuration
Addr
Type
Array
Size
Access
Keyword
Description
Details
0x70
BOOL
RW
hmode
Host Interface Mode
0x71
UINT8
RW
habr
Host Interface async
baudRate
0: asynchronous serial
1: synchronous serial. LRM is the clock provider
0: 4800bps
1: 9600 bps
2: 19200 bps
3: 38400 bps
4: 57600 bps
5: 115200 bps
6: 125000 bps
7: 250000 bps
8-255: not defined
Same as habr
0: lsb first
1: msb first
0: Transmit data output at clock falling adge,
receive at clock rising edge
1: Transmit data output at clock rising edge,
receive data input at clock falling edge
0: no echo
Note: Defaults to ‘3’ (38400)
after a system reset
0x72
0x73
UINT8
BOOL
RW
RW
hsbr
hbo
Host Interface sync baudrate
Host Interface Byte Ordering
0x74
BOOL
RW
hcp
Host Interface Clock Polarity
(sync mode only)
0x78
BOOL
RW
echo
Config mode Echo control
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LRM Radio Module – Host Interface Specification
Document p/n: 9S02-7954-A001 Rev.A
0x79
UINT8
6.4
RW
cfgbr
Registers
Config mode baudrate
1: echo
Same as habr
Section 5 Registers: RF Interface Configuration
These parameters control the operation of the RF interface.
Section 5: RF Interface Configuration
Addr
Type
Array
Size
Access
Keyword
Description
Details
0x80
UINT32
RW
txf
Tx Frequency (Hz)
0x84
UINT32
RW
rxf
Rx Frequency (Hz)
0x88
INT8
RW
txp
Tx Level(dBm)
0x89
BOOL
RW
hisel
High-selectivity activation
0x8a
INT8
rssi
Current RSSI (dBm)
The new frequency is set at the next transition to
Tx mode
The new frequency is set at the next transition to
Rx mode
If the Tx level value is outside the range supported
by the radio, the nearest supported value is set and
readback.
0: High-selectivity path disabled
1: High-selectivity path enabled
Reads current RSSI at frequency rxf. (Note: the
LRM shall be in Rx mode)
0x8b
INT8
prssi
0x8c
0x8d
UINT8
UINT8
RW
RW
psize
afc
RSSI of last received packet
(dBm)
Max size of received packets
AFC operation mode
0x8e
INT16
afcc
AFC correction
6.5
In number of bytes
0: AFC disabled
1: AFC enabled, applied to Rx mode only
2: AFC enabled, applied to Rx and Tx modes
Current frequency correction offset, given as a
factor of the synthesizer frequency resolution
(typically around 200Hz)
Section 6 Registers: RF Operation modes – specific configurations
This section is used to preset operation to certain pre-defined configurations, and define new parameters specific to
certain modes of operation.
Section 6: RF Operation mode specific parameters
Addr
Type
Size
Access
Keyword
Description
0x90
0x94
UINT8
UINT32
15
RW
RW
cm
cmp
RF operation mode
RF operation mode specific
parameters
6.5.1
Details
RF Operation mode
Several modes are defined. This list will expand as new modules and functionalities are developed.
Mode
value
Definition
900MHz_STANDARD
900MHz Standard Operation
900MHz_UNITY_TI
900MHz, Compatible to Unity TI-based radios
450MHz_STANDARD
450MHz, Standard Operation
450MHz_BELTPACK
450MHz, Compatible to Beltpack radios (3FSK scheme)
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Registers
4xxMHz_UNITY_RC
418-434MHz, Compatible to Unity Radiocraft-based radios
450MHz_UNITY_ADL
450MHz, Compatible to ADL-based radios
450MHz_UNITY_CTRACK
450MHz, with Channel Tracking option (developed initially for UniversalStudios)
450MHz_SIAMNET
20
450MHz, for SIAMnet
800MHz_SIAMNET
21
800MHz, for SIAMnet
NO_MODE_DEFINED
255
6.5.2
RF Operation mode specific parameters
The available mode-specific parameters are listed in Appendix A
6.6
Section 7 Registers: Test commands and parameters
This section implements tests utilities that can be used for development, production and service.
Section 7: Test Commands and Parameters
- Registers content after system reset is zero
Addr
Type
Size
Access
Keyword
Description
0xe0
0xe4
UINT8
UINT32
RW
test
testp
Test Mode
Test Parameters
6.6.1
Details
Test modes
Several modes are defined. This list will expand as new modules and functionalities are developed. Note that not
all test modes are available in all LRM.
Test Mode
value
Definition
NO_TEST
Test mode disabled
TX_CW
Transmission of a un-modulated carrier (CW)
TX_1010
Transmission of a continuous stream of 1010…
TX_PRBS
Transmission of a continuous PRBS stream
TX_PACKETS_PRANDOM
Transmission of RF packets (10 packets/sec) with pseudorandom content
TX_PACKETS_PDEFINED
Transmission of RF packets (10 packets/sec) with pre-defined content
CALIB_IFCALIB
40
Calibration, Image Frequency Rejection
RX_IDLE
80
Radio in receive mode. Used mainly to allow reading the rssi.
RX_RSSI
81
Radio in receive mode; rssi is printed twice per second
RX_STATS
82
Radio in receive mode; rx packets statistics are printed once per second
RX_PACKETS
83
Radio in receive mode; rx packets content is printed once per second
RX_BER0
84
Bit Error Rate measurement test, given a continuous 1010… stream is received;
BER is printed periodically
RX_BER1
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Same, except that BER is not printed; it has to be read using one of the test parameter registers
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LRM Radio Module – Host Interface Specification
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7.
Operation Mode Specific Parameters
Operation Mode Specific Parameters
Mode
value
parameters
900MHz_STANDARD
None
900MHz_UNITY_TI
cmp0: packet length
cmp1-8: tid/transkey addresses
450MHz_STANDARD
None
450MHz_BELTPACK
None
4xxMHz_UNITY_RC
cmp0: packet length
cmp1-8: tid/transkey addresses
450MHz_UNITY_ADL
cmp0: packet length
cmp1-8: tid/transkey addresses
450MHz_UNITY_CTRACK
cmp0: 2 frequency
cmp1: tid/transkey address
450MHz_SIAMNET
20
cmp0: operation (0=SRM, 1=BMRM_TX, 2=BMRM_RX
cmp1: Tcc
cmp2: SlotSize
800MHz_SIAMNET
21
cmp0: operation (0=SRM, 1=BMRM_TX, 2=BMRM_RX
cmp1: Tcc
cmp2: SlotSize
NO_MODE_DEFINED
255
None
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8.
Test-Specific Parameters
Test-Specific Parameters
Test Mode
value
Parameters
NO_TEST
None
TX_CW
None
TX_1010
None
TX_PRBS
None
TX_PACKETS_PRANDOM
None
TX_PACKETS_PDEFINED
testp0: packet data
CALIB_IFCALIB
40
testp0:
Number of rssi readings averaged. (If testp0 is set to ‘0’, the tests
automatically presets to ‘1’)
testp1:
Progress. Increments from 0 to 4096
testp2:
Current minimum rssi value (dBm, signed integer)
testp3:
Current calibration word for this current minimum rssi value
(uint32). The four lsb are maintained to zero until the calibration
complete, where it takes either 0x5 or 0xA depending if the radio
IC is a ADF7021 or ADF7020 is used.
RX_RSSI
81
None
RX_STATS
82
None
RX_PACKETS
83
None
RX_BER0
84
testp0:
Calculation window, in msec (default = 200msec). Result is
printed after each window time.
testp1:
Calculation result from the last window
testp0:
Calculation window, in msec (default = 200msec)
testp1:
Calculation result from the last window
RX_BER1
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