RADIOMETRIX BHX2_12

Hartcran House, 231 Kenton Lane, Harrow, Middlesex, HA3 8RP, England
Tel: +44 (0) 20 8909 9595, Fax: +44 (0) 20 8909 2233, www.radiometrix.com
Issue 1, 26 July 2012
BHX2
NBFM Multi-channel 500mW UHF Transceiver
The BHX2 transceiver module offers a
500mW RF power output in the UK
458MHz band. This makes the BHX2
ideally suited to those low power
applications where existing multi-channel
narrow band devices like TR2M have
insufficient range.
Figure 1: BHX2-458-5-SMA
Features
Conforms to EN 300 220-3 and EN 301 489-3
Any 5MHz band module from 420 - 480MHz available as factory tuned custom variant
High performance double superhet, 128 channel PLL Synthesizer with TCXO
Data rates up to 5 kbps for standard module
Usable range over 5km
Fully screened
Feature-rich interface (RSSI, automatic noise squelch, analogue and digital baseband)
Incorporates a 1200baud dumb modem
User configurable via RS232 interface
Low power requirements
Applications
Handheld terminals
Heavy vehicle/machine remote controls
EPOS equipment, barcode scanners
Data loggers
Industrial telemetry and telecommand
In-building environmental monitoring and control
High-end security and fire alarms
Vehicle data up/download
Technical Summary
Operating frequency: 458.5-459.1MHz
Custom variants from 420MHz to 480MHz on any 5MHz band
23 channels in 458MHz band (128 channels max.)
Transmit power: +27dBm (500mW) nominal
Supply range: 5.5V - 15V
Current consumption: 350mA transmit, 30mA receive
Data bit rate: 5kbps max. (standard module)
Receiver sensitivity: -118dBm (for 12 dB SINAD)
Size: 85 x 39 x 13 mm (RF pin version)
Evaluation platforms: NBEK + BHX carrier
Radiometrix Ltd
BHX2 Data Sheet
page 1
Figure 2: BHX2 block diagram
Radiometrix Ltd
BHX2 Data Sheet
page 2
Figure 3: BHX2 Footprint (Top) view
User Interface
Pins
1
2
3
4
5
6
7
8
9
10
11
12
13
Name
TXE
TXD
AF in
RSSI
SQF
AF out
RXD
+4.4V out
0V
PGM
P1
P2
P3
Function
Transmitter Enable. Low = ON, Open = RX mode. Internal 10kΩ pull-up to 4V
DC coupled digital data input for 3-12V CMOS logic. Leave open if unused
50mV - 2.5v p-p AC coupled input. Variable gain
DC level between 0.5V and 2.5V. 60dB dynamic range
Noise operated carrier detect. Open collector. ON/low = no signal
200mVpk-pk audio. DC coupled, approx 1V bias. Muted by squelch
Open collector output of data slicer suitable for Biphase codes
Regulated DC supply. 75mA max. drain. Present if unit is powered
Ground
Serial programming/configuration input at RS232 level
Parallel frequency select inputs. Inverted logic, internal 10kΩ pullups to 4.4V
Notes:
1. BHX2 transmitter section inverts sense of the baseband stream, so a logical inversion is
present between input of TX and output on RX
2. Carrier detect mutes the AF and DATA outputs. It can be disabled by rotating the level set
trimmer fully ACW.
3. There are no pullups on the open collector outputs.
4. The sofware incorporates a 1200baud dumb modem, compatible with that implemented in
TX2M, RX2M, TR2M, SMX2 and UHX2 radios ( i1200 tones and format ).
5. RS232 input pins (10 and 11) tolerate true +/- levels. No buffering is required.
6. This unit actually consists of a TR2C RF board and an AFS2-458 amplifier module,
combined with a 5v LDO
7. In future versions of the software, pin 13 will have a modem handshake function
8. The BHX2 has the same footprint/pinout/function as the TR2M (TR2B), but the case is
longer, and the RF output is a coaxial connector. Compared to an TR2M, the minimum
supply voltage is higher (5.5v vesus 4.5v).
Radiometrix Ltd
BHX2 Data Sheet
page 3
TXE (MOD TX_ON) (1)
RSSI (4)
ADC
SQF (5)
(7)
BHX2+ 4.4VRXD
out (8)
GND (9)
PGM (10)
P1(11)
P2 (12)
P3 (13)
1kΩ
AF out (6)
Carrier Detect
Data In
10kΩ
VDD
100nF
Parallel
Channel
Select
6
7
8
1
2
3
TXD
4
9
5
SGD
PC serial port
Data Out
AF in (3)
Host Microcontroller
Transmit Enable
TXD (2)
Figure 4: BHX2 interfaced to host microcontroller and serial port for configuration
BHX2 can be directly interfaced to a host microcontroller which can generally be powered by the
regulated +4.4V output on pin 8 of BHX2. Three I/O pins on the microcontroller port can be
assigned to select the first 8 channels on frequency table of the appropriate band for which the
module is configured by pulling the P1-P3 pins low. Channel select pins of BHX2 have internal pullup to 4V supply rail, hence channel selection operate on inverted logic.
Channel
0
1
2
3
4
5
6
7
P3:P2:P1
111
110
101
100
011
010
001
000
458MHz band
458.525
458.550
458.575
458.600
458.625
458.650
458.675
458.700
Digital Received Data Output (RXD) pin is an open collector output, which should be pulled-up to
required voltage swing level (e.g. +4.4V or Vcc).
BHX2 has an automatic noise squelching function which is activated when there is not any RF
signal at detectable level on the channel or if the non-coherent noise like interference level is high
enough to block any weak RF signal from being received. SQF is provided as an open-collector
output for monitoring which should be pulled-up to required voltage swing level. SQF output will
jump to pull-up voltage level if received RF signal level at the RF In/Out pin of the module is about
3dB below the level required to produce 12dB SINAD level on demodulated AF Output signal. SQF
pin can be connected to an LED to act as a Carrier Detect indicator. Pull-up resistor value should
be reduced (e.g. 1kΩ) according to the current requirement to produce satisfactory brightness on
the LED used.
BHX2 can be configured using any PC/Laptop/PDA having a serial port and modem/terminal
program. TXD (pin 3) of DB9M connector can be directly wired to PGM (pin C10) of the BHX2 and
SGN (pin 5) of DB9M connector should be either connected to common ground or pin C9 of the
BHX2.
The whole frequency/channel table is user reconfigurable to 128 channels within 5MHz band of
supplied frequency subject to regulatory band limits. Serial Channel Selection via PGM pin gives
access to the whole of regulatory band allocation for 458.525MHz-458.925MHz (23 channels).
Radiometrix Ltd
BHX2 Data Sheet
page 4
Received Signal Strength
2.5
2.3
2.1
RSSI output (V)
1.9
1.7
1.5
1.3
1.1
0.9
0.7
0.5
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
RF Level (dBm)
Figure 5: RSSI voltage variation with respect to RF level at BHX2
If the microcontroller has a built-in Analogue to Digital Converter (ADC), the Received Signal
Strength Indicator (RSSI) output voltage level can be read by the microcontroller to estimate its
distance from transmitting BHX2 unit or identify areas of weak signal reception.
RSSI can also be used to make a decision to switch to the second antenna in fixed installations
within building where the probability of null-spots are higher.
Radiometrix Ltd
BHX2 Data Sheet
page 5
BHX2 serial configuration commands
2400 baud RS232. 8 bit data, no parity, 1 start bit, 1 or 2 stop bits, No flow control
SINGLE
nnnnn
GOCHAN xx
LOADMX xx
Set value of N for single channel operation
Serial select of channel xx (0 to 127)
Set highest permitted (serial selected) channel xx (others default to
ch0)
LOAD aa nnnnn
Set value of N for channel aa (channels 0 to 15)
LOADTB nnnnn
Set value of N for channel 16 (channels 17 to 127 then in sequence)
RVALUE rrrr
Enter value for R register
SETPAR
Channel selected by 3 bit parallel input (0 to 7). Disable modem
SETSER
Channel selected by most recent 'gochan' operation
SETMOD
Enable internal modem. Frequency selected by most recent 'gochan'
or 'single'
OFFSET
Set receive frequency offset (for 25KHz this is 1800)
GOTEST
250Hz test tone transmission
<cr>
Process entry
/
Clear all buffers
xx = channel number from 00 to 127
aa = two digit channel number from 00 to 15
nnnnn = synthesizer N register value, (up to 65535)
rrrr = synthesizer R register value, (up to 16383)
N=
f RF
f Channelspacing
=
458.525 MHz
= 18341
25 kHz
R=
f TCXO
f channelspacing
=
13MHz
, So R=520
25kHz
On receive, the local oscillator operates at 45MHz (the first IF) below the carrier.
An OFFSET value is subtracted from the channel's N value when the unit is switched into RX
OFFSET = First IF / Fc, so, OFFSET = 45MHz / 25KHz = 1800 (usually)
Notes:
1. A pause of at least 50ms must be allowed between command strings (EEPROM
programming time)
2. SINGLE mode does not store the N value in EEPROM. Therefore the unit is inoperative
after a power down until either another valid SINGLE command is received, or mode is
changed by a GOCHAN, SETPAR or SETSER command. SINGLE mode is intended for
frequency agile applications.
3. /SETPAR command should be issued at the end of channel programming to put the module
back into parallel frequency select mode
4. In 458MHz band, channel 12 (458.825MHz) and channel 15 (458.900MHz) are allocated
specifically for fixed alarm and radio keys/vehicle paging applications respectively and
should not be used for general purpose applications.
5. User can modify the frequency table of 128 channels to any desired frequency by changing
N, R values of synthesizer within ±2.5MHz of factory set Channel 0 frequency subject to the
Radio Regulatory Band Allocation in the country of intended use.
6. All other frequency, power, analogue input gain and automatic noise squelching adjustment
will be treated as custom variants of the module to be set by factory.
Radiometrix Ltd
BHX2 Data Sheet
page 6
Pin description of BHX2 with Modem mode selected
The 'modem' mentioned is a 1200 baud RS232 semi-intelligent unit (Transmit keyed when valid
serial data is present, so no separate TX control needed. Coding in the datastream also permits
the receiver to ignore noise and only output valid serial data). This is a half duplex unit, so
collisions between transmitted and received packets must be dealt with by the user.
Pin
1
Name
MOD TX_ON
2
3
4
5
6
7
8
9
10
11
12
13
MOD NC
MOD NC
RSSI
MOD NC
AF out
NC
+4.4V out
0V
PGM
MOD TXD
MOD RXD
MOD NC
Function
Open = normal modem operation. Low = constant TX (for test). 10k
pullup to 4V
Leave open
Leave open
DC level between 0.5V and 2.5V. 60dB dynamic range
Leave open
Modem tones or noise present
Leave open
Regulated DC supply. 75mA max. drain. Present if unit is powered
Ground
Serial programming/configuration input at RS232 level
RS232 data input (true). 10k pullup to 4V
Inverted RS232 data out (to inverting buffer like MAX232)
Leave open
BHX2s on both ends should be configured to required operating frequency using
GOCHAN command before starting to use the internal 1200 baud modem, because the
P1-P3 pins will be used as Modem Data pins and the modem will operate on the last
serially selected channel after SETMOD command is used to enable the Modem.
TXE (MOD TX_ON) (1)
TXD (MOD NC) (2)
AF in (MOD NC) (3)
RSSI (4)
SQF (MOD NC) (5)
AF out (6)
Serial COM Port
RXD (MOD NC) (7)
+ 4.4V out (8)
BHX2
GND (9)
PGM (10)
P1 (MOD TXD) (11)
P2 (MOD RXD) (12)
SW1
VDD
6
1
2
7
3
8
RXD
TXD
4
9
P3 (MOD NC) (13)
5
SGD
RS232 driver
Figure 6: BHX2 interfaced to PC serial port in modem mode
Note:
Baud rate used for Modem is half that of used for serial configuration. Attached RS232
devices should be set with the following:
1200bps, 8 Data bits, No Parity, 1/2 stop bits, no flow control
TXD (Pin 3) of a Serial Port can be switched from PGM (Pin C10) to MOD TXD (Pin C11)
with no RS232 driver in between. However, MOD RXD (Pin C12) requires an RS232 line
driver before it can be connected to RXD (pin 2) of a serial port. Some of the RS232 line
drivers can be powered from the regulated +4.4V out (Pin C8).
Radiometrix Ltd
BHX2 Data Sheet
page 7
Condensed specifications
Frequency
Frequency stability
Channel spacing
Number of channels
Transmit
Output power
TX on switching time
Modulation type
TX modulation bandwidth
Adjacent channel TX power
Inputs
Receive
Sensitivity
image / spurious
blocking
adjacent channel
Outputs
Spurious radiations
Power on to valid audio
Power on to valid audio
Power on to stable data out
(50:50 mark / space)
Supply
458.5-459.1MHz (any 5MHz band from 420-480MHz)
and any 3MHz band from 210 – 270MHz
+/- 1.5kHz
25kHz (12.5kHz by special order)
128
channels controlled via RS232 interface (8 parallel
selected)
+27dBm (500mW) ±1dB
50 ms
FM, FSK (F1D, F3D)
DC – 3kHz
-37dBm
analogue, data (CMOS/TTL compatible)
-118dBm for 12 dB SINAD
-70dB
-85dB
<-65dB (Tested per. ETSI EN 301 489-3)
RSSI, carrier detect, audio, data
Compliant with ETSI EN 300 220-3 and EN 301 489-3
28ms (no noise mute)
45ms (with noise mute)
50ms (with or without mute)
Voltage
Current
5.5 - 15V (+5V regulated version available)
350mA nominal transmit
30mA receive
user
Power
RF
13pin 0.1" pitch molex
2pin 0.1" pitch molex
3pin 0.1" pitch molex
or SMA (long, bulkhead mounted type) or MCX
1.2mm (min.)
85 x 39 x 13 mm Case only (RF pins version)
92 x 39 x 13mm (including MCX)
105 x 39 x 13mm (including SMA)
Interface
Recommended PCB hole size
Size
-20 to +60 οC (Storage -30 to +70 οC)
ETSI Radio standard EN 300 220-3 and EMC standard EN 301
489-3
Notes: 1.The data slicer cannot be depended upon for data waveform frequencies below 250Hz
2. When RX is on and a transmitter keys up, again a 50ms period is required to stabilise
data output mark/space. i.e. allow at least 50ms of preamble
Operating temperature
Intended approval
Ordering Information:
Part No.
BHX2-458-5
BHX2-458-5-SMA
BHX2-458-5-MCX
BHX2-xxx-5
BHX2-xxx-5-SMA
BHX2-xxx-5-MCX
Radiometrix Ltd
Antenna connector
Frequency band
RF pins
458.5 - 459.1MHz
SMA
458.5 - 459.1MHz
MCX
458.5 - 459.1MHz
Where xxx is any 5MHz band from 420-480MHz)
and any 3MHz band from 210 – 270MHz
BHX2 Data Sheet
page 8
Radiometrix Ltd
Hartcran House
231 Kenton Lane
Harrow, Middlesex
HA3 8RP
ENGLAND
Tel: +44 (0) 20 8909 9595
Fax: +44 (0) 20 8909 2233
[email protected]
www.radiometrix.com
Copyright notice
This product data sheet is the original work and copyrighted property of Radiometrix Ltd. Reproduction in
whole or in part must give clear acknowledgement to the copyright owner.
Limitation of liability
The information furnished by Radiometrix Ltd is believed to be accurate and reliable. Radiometrix Ltd
reserves the right to make changes or improvements in the design, specification or manufacture of its
subassembly products without notice. Radiometrix Ltd does not assume any liability arising from the
application or use of any product or circuit described herein, nor for any infringements of patents or other
rights of third parties which may result from the use of its products. This data sheet neither states nor
implies warranty of any kind, including fitness for any particular application. These radio devices may be
subject to radio interference and may not function as intended if interference is present. We do NOT
recommend their use for life critical applications.
The Intrastat commodity code for all our modules is: 8542 6000
R&TTE Directive
After 7 April 2001 the manufacturer can only place finished product on the market under the provisions of
the R&TTE Directive. Equipment within the scope of the R&TTE Directive may demonstrate compliance
to the essential requirements specified in Article 3 of the Directive, as appropriate to the particular
equipment.
Further details are available on The Office of Communications (Ofcom) web site:
http://www.ofcom.org.uk/
Information Requests
Ofcom
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2a Southwark Bridge Road
London SE1 9HA
Tel: +44 (0)300 123 3333 or 020 7981 3040
Fax: +44 (0)20 7981 3333
[email protected]
European Communications Office (ECO)
Peblingehus
Nansensgade 19
DK 1366 Copenhagen
Tel. +45 33896300
Fax +45 33896330
[email protected]
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