RXM-900-HP-II Linx Technologies Inc, RXM-900-HP-II Datasheet - Page 16

RXM-900-HP-II

Manufacturer Part Number

RXM-900-HP-II

Description

RECEIVER RF 900MHZ 8-CH PACK

Manufacturer

Linx Technologies Inc

Datasheet

1.RXM-900-HP-II.pdf (24 pages)

Specifications of RXM-900-HP-II

Frequency

902MHz ~ 928MHz

Sensitivity

-95dBm

Data Rate - Maximum

50 kbps

Modulation Or Protocol

FM, FSK

Applications

Home / Industrial Automation, Remote Access, Security Alarms

Current - Receiving

18mA

Data Interface

PCB, Through Hole

Antenna Connector

Through Hole

Voltage - Supply

2.7 V ~ 16 V

Operating Temperature

0°C ~ 70°C

Package / Case

18-SIP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Memory Size

Other names

RXM-900-HP2
RXM-900-HP2

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GENERAL ANTENNA RULES

The following general rules should help in maximizing antenna performance:

Antenna resonance should not be confused with antenna impedance. The

difference between resonance and impedance is most easily understood by

considering the value of VSWR at its lowest point. The lowest point of VSWR

indicates the antenna is resonant, but the value of that low point is determined

by the quality of the match between the antenna, the transmission line, and the

device it is attached to.

To fully appreciate the importance of an antenna that is both resonant and

matched consider that an antenna with a VSWR of 1.5 will effectively transmit

approximately 95% of its power while an antenna with a VSWR of 10 will only

transmit about 30%. (See pg. 23)

If an internal antenna is to be used, keep it away from other metal

Proximity to objects such as a user’s hand or body, or metal objects will

cause an antenna to detune. For this reason the antenna shaft and tip

should be positioned as far away from such objects as possible.

Optimum performance will be obtained from a 1/4- or 1/2-wave straight whip

mounted at a right angle to the ground-plane. In many cases this isn’t

desirable for practical or ergonomic reasons; thus, an alternative antenna

style such as a helical, loop, patch, or base-loaded whip may be utilized.

components, particularly large items like transformers, batteries, and PCB

tracks and ground-planes. In many cases, the space around the antenna is

as important as the antenna itself.

In many antenna designs, particularly 1/4-wave whips, the ground-plane

acts as a counterpoise, forming, in essence, a 1/2-wave dipole. For this

reason adequate ground-plane area is essential. As a general rule the

ground-plane to be used as counterpoise should have a surface area

overall length of the 1/4-wave radiating element.

Remove the antenna as far as possible from potential interference sources.

Any frequency of sufficient amplitude to enter the receiver’s front end will

reduce system range, cause increased bit errors, and can even prevent

reception entirely. There are many possible sources of internally generated

interference. Switching power supplies, oscillators, even relays can also be

significant sources of potential interference. Here again, the single best

weapon against such problems is attention to placement and layout. Filter

the module’s power supply with a high-frequency bypass capacitor. Place

adequate ground-plane under all potential sources of noise. Shield noisy

board areas whenever practical.

In some applications it is advantageous to place the receiver and its

antenna away from the main equipment. This avoids interference problems

and allows the antenna to be oriented for optimum RF performance. Always

use 50

coax such as RG-174 for the remote feed.

the

RXM-900-HP-II Linx Technologies Inc, RXM-900-HP-II Datasheet - Page 16

RXM-900-HP-II

Specifications of RXM-900-HP-II

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