TR-916-SC-P Linx Technologies Inc, TR-916-SC-P Datasheet - Page 13

TR-916-SC-P

Manufacturer Part Number

TR-916-SC-P

Description

TRANSCEIVER RF 916MHZ 1/2-DUPLEX

Manufacturer

Linx Technologies Inc

Series

SCr

Datasheet

1.TR-916-SC-P.pdf (20 pages)

Specifications of TR-916-SC-P

Frequency

916MHz

Data Rate - Maximum

33.6kbps

Modulation Or Protocol

FM, FSK

Applications

ISM, Garage Door Opener, Remote Controls, 2-way RKE

Power - Output

-10dBm

Sensitivity

-94dBm

Voltage - Supply

2.7 V ~ 13 V

Current - Receiving

15mA

Current - Transmitting

19mA

Data Interface

PCB, Through Hole

Antenna Connector

RP-SMA

Operating Temperature

0°C ~ 70°C

Package / Case

Module

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Memory Size

Other names

TR-900-SC
TR-900-SC
TR-916-SC
TR-916-SC

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ANTENNA CONSIDERATIONS

GENERAL ANTENNA RULES

The choice of antennas is one of the most critical and often overlooked design

considerations. The range, performance, and legality of an RF link is critically

dependent upon the type of antenna employed. Proper design and matching of

an antenna is a complex task requiring sophisticated test equipment and a

strong background in the principles of RF propagation. While adequate antenna

performance can often be obtained by trial and error methods, you may also want to

consider utilizing a premade antenna from Linx. Our low-cost antenna line is

designed to ensure maximum performance and Part 15 compliance. The purpose of

the following sections is to give you a basic idea of some of the considerations

involved in the design and selection of antennas. For a more comprehensive

discussion please review Linx applications note #00500 “Antennas: Design,

Application, Performance”.

An antenna allows RF energy to be efficiently conveyed to and from free space. The

antenna should give its optimum performance in the band of use and capture as little

as possible of other off-frequency signals. It is important to recognize that the

antenna plays a significant role in determining the performance and legality of your

end product. In order to gain a better understanding of the considerations involved in

the design and selection of antennas, please review Linx applications note #00500

“Antennas: Design, Application, Performance”.

It is usually best to utilize a basic quarter-wave whip for your initial concept

evaluation. Once the prototype product is operating satisfactorily, a production

antenna should be selected to meet the cost, size and cosmetic requirements of the

product.

Maximum antenna efficiency is always

obtained

resonance. If the antenna is too short,

capacitive reactance is present; if it is too

long, inductive reactance will be present.

The indicator of resonance is the minimum

point in the VSWR curve. You will see from

the adjoining example that antenna (A) is

resonant at too low a frequency, indicating

excessive length, while antenna (C) is

resonant at too high a frequency, indicating

the antenna is too short. Antenna (B),

however, is “just right.”

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 to which it is attached.

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%.

when

the

antenna

DESIRED FREQUENCY

TR-916-SC-P Linx Technologies Inc, TR-916-SC-P Datasheet - Page 13

TR-916-SC-P

Specifications of TR-916-SC-P

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