MDEV-900-HP3-PPS-RS232 Linx Technologies Inc, MDEV-900-HP3-PPS-RS232 Datasheet - Page 4

MDEV-900-HP3-PPS-RS232

Manufacturer Part Number

MDEV-900-HP3-PPS-RS232

Description

KIT MASTER 900MHZ HP-3 SIP RS232

Manufacturer

Linx Technologies Inc

Series

HP3r

Type

Receiverr

Datasheet

1.MDEV-900-HP3-PPS-RS232.pdf (13 pages)

Specifications of MDEV-900-HP3-PPS-RS232

Frequency

902MHz ~ 928MHz

For Use With/related Products

HP3 Series RF Modules

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

MDEV-900-HP3
MDEV-900-HP3
MDEV-900-HP3-PPS
MDEV-900-HP3-PPS
MDEV900HP3
MDEV900HP3PPSRS23

Current page: 4 of 13
Download datasheet (404Kb)

THEORY OF OPERATION

Figure 9: HP3 Series Receiver Block Diagram

Page 6

Channel

Select

The HP3 is a high-performance multi-channel, dual-conversion superhet

receiver capable of recovering both analog (FM) and digital (FSK) information

from a matching HP Series transmitter. 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, like that in which the HP3 operates.

The single-ended RF port is matched to 50-ohms to support commonly available

antennas, such as those manufactured by Linx. The RF signal coming in from

the antenna is filtered by a Surface Acoustic Wave (SAW) filter to attenuate

unwanted RF energy. A SAW filter provides significantly higher performance

than other filter types, such as an LC bandpass filter.

Once filtered, the signal is amplified by a Low Noise Amplifier (LNA) to increase

the receiver sensitivity and lower the overall noise figure of the receiver. After the

LNA, the signal is mixed with a synthesized local oscillator operating 34.7MHz

below the incoming transmission frequency to produce the first Intermediate

Frequency (IF).

The second conversion and FM demodulation is achieved by a high-

performance IF strip that mixes the 34.7MHz first conversion frequency with

24.0MHz from a precision crystal oscillator. The resulting second IF of 10.7MHz

is then highly amplified in preparation for demodulation.

A quadrature demodulator is used to recover the baseband signal from the

carrier. The demodulated waveform is filtered, after which it closely resembles

the original signal. The signal is routed to the analog output pin and the data

slicer stage, which provides squared digital output via the data output pin. A key

feature of the HP3 is the transparency of its digital output, which does not impose

balancing or duty-cycle requirements within a range of 100bps to 56kbps.

An on-board microcontroller manages receiver functions 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 incoming signal strength and squelches the

data output when the signal is not strong enough for accurate data detection.

MODE

{

CS0

CS1

CS2

Int. Osc.

4MHz

SAW BPF

VCO

PLL

LNA

34.7M

BPF

24MHz

Crystal

10.7MHz

10.7M

BPF

Amp

BPF

Limiter

Discriminator

Quad

10.7M

Analog

Digital

RSSI

Data

POWER-UP SEQUENCE

POWER SUPPLY

USING THE PDN PIN

As previously mentioned, the HP3 is controlled

by an on-board microprocessor. When power

is applied, the microprocessor executes the

receiver start-up sequence, after which the

receiver is ready to receive valid data.

The adjacent figure shows the start-up

sequence. This sequence is executed when

power is applied to the V

PDN line is taken high.

On power-up, the microprocessor reads the

external channel selection lines and sets the

frequency synthesizer to the appropriate

channel. Once the frequency synthesizer has

stabilized, the receiver is ready to accept data.

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 receiver sensitivity; 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 receiver 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 receiver will enter into a low-current

(<10µA) power-down mode. During this time the receiver is off and cannot

perform any function. It may be useful to note that the startup time coming out

of power-down will be slightly less than when applying V

The PDN line allows easy control of the receiver state from external

components, like a microcontroller. By periodically activating the receiver,

checking for data, then powering down, the receiver’s average current

consumption can be greatly reduced, saving power in battery-operated

applications.

line or when the

to ground will help in cases where the quality

Figure 10: Start-Up Sequence

State Data Output Pin

Program Frequency

Determine Squelch

Parallel Mode

Crystal Oscillator

Selection Inputs

Cycle Here Until

or Mode Change

Begins to Work

Read Channel

Synthesizer

Channel

Figure 11: Supply Filter

Vcc IN

Determine Mode

Squelch Data

POWER ON

Output Pin

10Ω

State Data Output Pin

Cycle Here Until More

Program Freq. Synth

Determine Squelch

Begins to Operate

To Default CH. 50

Crystal Oscillator

Serial Data Input

or Mode Change

Data Input

Serial Mode

Ready for

Vcc TO

MODULE

Page 7

10μF

MDEV-900-HP3-PPS-RS232 Linx Technologies Inc, MDEV-900-HP3-PPS-RS232 Datasheet - Page 4

MDEV-900-HP3-PPS-RS232

Specifications of MDEV-900-HP3-PPS-RS232

Related parts for MDEV-900-HP3-PPS-RS232