TXM-900-HP3-SPO Linx Technologies Inc, TXM-900-HP3-SPO Datasheet - Page 4
TXM-900-HP3-SPO
Manufacturer Part Number
TXM-900-HP3-SPO
Description
RF Modules & Development Tools RF Transmitter 900MHz 8-CH SMD Pack
Manufacturer
Linx Technologies Inc
Datasheet
1.TXM-900-HP3-PPO.pdf
(13 pages)
Specifications of TXM-900-HP3-SPO
Board Size
32 mm x 16 mm x 3.8 mm
Minimum Frequency
902.62 MHz
Minimum Operating Temperature
- 30 C
Supply Voltage (min)
2.8 V
Product
RF Modules
Maximum Frequency
927.62 MHz
Supply Voltage (max)
17 V
Maximum Operating Temperature
+ 85 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
THEORY OF OPERATION
Figure 9: HP-3 Series Transmitter Block Diagram
CTS OUTPUT
Page 6
The HP3 Series transmitter is a high-performance, multi-channel RF transmitter
capable of transmitting both analog (FM) and digital (FSK) information. FM / FSK
modulation offers significant advantages over AM or OOK modulation methods,
including increased noise immunity and the receiver’s ability to capture in the
presence of multiple signals. This is especially helpful in crowded bands, such
as the one in which the HP3 operates.
A precision 12.00MHz Voltage Controlled Crystal Oscillator (VCXO) serves as
the frequency reference for the transmitter. Incoming data is filtered to limit the
bandwidth, and then used to directly modulate the reference. Direct reference
modulation inside the loop bandwidth provides fast start-up, while allowing a
wide modulation bandwidth and near DC modulation capability. This also
eliminates the need for code balancing.
The modulated 12.00MHz reference frequency is applied to the Phase-Locked
Loop (PLL). The PLL, combined with a 902 to 928MHz VCXO, forms a frequency
synthesizer that can be programmed to oscillate at the desired transmit
frequency. An on-board microcontroller manages the PLL programming and
greatly simplifies user interface. The microcontroller reads the channel selection
lines and programs the on-board synthesizer. This frees the designer from
complex programming requirements and allows for manual or software channel
selection. The microcontroller also monitors the status of the PLL and indicates
when the transmitter is ready to transmit data by pulling the CTS line high.
The PLL-locked carrier is amplified to increase the output power of the
transmitter and to isolate the VCO from the antenna. The output of the buffer
amplifier is connected to a filter network, which suppresses harmonic emissions.
Finally, the signal reaches the single-ended antenna port, which is matched to
50 ohms to support commonly available antennas, such as those from Linx.
The Clear-To-Send (CTS) output goes high to indicate that the transmitter PLL
is locked and the module is ready to accept data. In a typical application, a
microcontroller will raise the PDN line high and begin to monitor the CTS line.
When the line goes high, the microcontroller will start sending data. It is not
necessary to use the CTS output, but if not used, the circuit should wait a
minimum of 10mS after raising the PDN line high before transmitting data. If data
is being sent redundantly, there is generally no need to monitor the CTS line or
to wait a fixed time, though the initial bits may not get through.
DATA
MODE
IN
CS0
CS1
CS2
Int. Osc.
4MHz
28kHz Low Pass
μP
Filter
VCO
PLL
Amplifier
12MHz
Crystal
Modulator
Band Pass
Filter
RF OUT
POWER-UP SEQUENCE
POWER SUPPLY
USING THE PDN PIN
The HP3 transmitter is controlled by an
on-board microprocessor. When power is
applied, a start-up sequence is initiated.
At the end of the start-up sequence, the
transmitter is ready to transmit data.
The adjacent figure shows the start-up
sequence. It is executed when power is
applied to the V
line is taken high.
On power-up, the microprocessor reads
the external channel-selection lines and
sets the frequency synthesizer to the
appropriate channel. When the frequency
synthesizer has locked on to the proper
channel frequency, the circuit is ready to
accept data. This is acknowledged by the
CTS line transitioning high. The module
will then transmit data from the user’s
circuit.
The HP3 incorporates a precision, low-dropout
regulator on-board, which allows operation over an
input voltage range of 2.8 to 13 volts DC. Despite this
regulator, it is still important to provide a supply that is
free of noise. Power supply noise can significantly
affect the transmitter modulation; therefore, providing
a clean power supply for the module should be a high
priority during design.
A 10Ω resistor in series with the supply followed by a
10µF tantalum capacitor from V
of supply power is poor. This filter should be placed close to the module’s supply
lines. These values may need to be adjusted depending on the noise present on
the supply line.
The Power Down (PDN) line can be used to power down the transmitter without
the need for an external switch. This line has an internal pull-up, so when it is
held high or simply left floating, the module will be active.
When the PDN line is pulled to ground, the transmitter will enter into a low-
current (<15µA) power-down mode. During this time, the transmitter is off and
cannot perform any function.
The PDN line allows easy control of the transmitter state from external
components, such as a microcontroller. By periodically activating the transmitter,
sending data, then powering down, the transmitter’s average current
consumption can be greatly reduced, saving power in battery-operated
applications.
CC
line or when the PDN
CC
to ground will help in cases where the quality
Figure 10: Start-up Sequence
Program Frequency
Determine State of
Begins to Operate
Parallel Mode
Crystal Oscillator
Selection Inputs
CTS Output Line
Cycle Here Until
or Mode Change
Read Channel-
Synthesizer
Channel
Figure 11: Supply Filter
Vcc IN
Determine Mode
POWER ON
Data Input, Mode Change,
Program Freq. Synth
Program Frequency
Cycle Here Until More
Determine State of
Begins to Operate
10Ω
To Default CH. 50
Crystal Oscillator
Serial Data Input
CTS Output Line
or PLL Loses Lock
Synthesizer
Serial Mode
Ready for
Vcc TO
MODULE
+
Page 7
10μF
Related parts for TXM-900-HP3-SPO
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
TRANSMITTER RF 900MHZ 8-CHANNEL
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
TRANSMITTER RF 900MHZ 8-CHANNEL
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
TRANSMTR RF 900MHZ 8PAR/120SRLCH
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
XMITTER RF 900MHZ 8-CH SMD
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
TRANSMTR RF 902-928MHZ 8P/100S
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
RF Modules & Development Tools RF Transmitter900MHz 8&100-CH SIP Pack
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
RF Modules & Development Tools RF Transmitter 900MHz 8-CH SIP Pack
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
HOLDER BATTERY 20MM COIN CR2032
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
CONN RPSMA BL CRJA-CPV 8.5" COAX
Manufacturer:
Linx Technologies Inc
Part Number:
Description:
CABLE RG174 RPSMA M/F 8.5"
Manufacturer:
Linx Technologies Inc
Part Number:
Description:
MODULE USB LOW SPEED
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
IC TRANSCODER MT BI-DIR 20-SSOP
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
IC ENCODER LOW SECURITY 8DIP
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
IC DECODER MS SERIES 20-SSOP
Manufacturer:
Linx Technologies Inc
Datasheet:
Part Number:
Description:
IC ENCODER MS SERIES 20-SSOP
Manufacturer:
Linx Technologies Inc
Datasheet: