AC4490-200M-485 Laird Technologies, AC4490-200M-485 Datasheet - Page 31

AC4490-200M-485

Manufacturer Part Number

AC4490-200M-485

Description

TXRX 900MHZ 3.3-5.5V TTL 200MW

Manufacturer

Laird Technologies

Series

AeroCommr

Datasheets

1.AC4490-200M.pdf (2 pages)

2.AC4490-200M.pdf (74 pages)

Specifications of AC4490-200M-485

Frequency

902MHz ~ 928MHz

Data Rate - Maximum

115.2kbps

Modulation Or Protocol

FHSS, FSK

Applications

AMR, Fire & Security Alarms, Telemetry

Power - Output

5mW ~ 200mW

Sensitivity

-110dBm

Voltage - Supply

3.3V, 5V

Current - Transmitting

68mA

Data Interface

Connector, 2 x 10 Header

Antenna Connector

MMCX

Operating Temperature

-40°C ~ 85°C

Package / Case

Module

Wireless Frequency

900 MHz

Interface Type

20-pin mini connector

Modulation

FHSS, FSK

Security

1 byte System ID, DES

Operating Voltage

3.3 V to 5.5 V

Output Power

200 mW

Antenna

Integral and External Dipole

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Memory Size

Current - Receiving

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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AC4490 User’s Manual

prevent the transceiver from sending it data by disabling RTS (logic High). Once RTS is enabled (logic Low), the

transceiver can send packets to the OEM Host as they are received.

Note: Leaving RTS disabled for too long can cause data loss once the transceiver’s 256 byte receive buffer fills up.

T e s t

When pulled logic Low before applying power or resetting, the transceiver’s serial interface is forced to a 9600, 8-N-1

(8 data bits, No parity, 1 stop bit). To exit, the transceiver must be reset or power-cycled with Test pin logic High. This

pin is used to recover transceivers from unknown baud rates only. It should not be used in normal operation. Instead

the transceiver Interface Baud Rate should be programmed to 9600 baud if that rate is desired for normal operation.

R S S I

Received Signal Strength Indicator is used by the OEM Host as an indication of instantaneous signal strength at the

receiver. The OEM Host must calibrate RSSI without an RF signal being presented to the receiver. Calibration is

accomplished by following the steps listed below.

1) Power up only one transceiver in the coverage area.

2) Measure the RSSI signal to obtain the minimum value with no other signal present.

3) Power up another transceiver and begin sending data from that transceiver to the transceiver being measured.

Make sure the two transceivers are separated by approximately ten feet.

4) Measure the peak RSSI, while the transceiver is in Session, to obtain a maximum value at full signal strength.

As RSSI is only valid when the local transceiver is receiving an RF packet from a remote transceiver, instantaneous

RSSI can be very tricky to use. Therefore, the transceiver stores the most recent valid RSSI value. The OEM Host

issues the Report Last Good RSSI command to request that value. Additionally, validated RSSI can be obtained from

Receive Packet and Send Data Complete API commands and from the Probe command. Validated RSSI is not

available at the RSSI pin. The following equation approximates the RSSI curve:

E N G I N E E R ’ S T I P

Aerocomm does not recommend permantly grounding the Forced_9600 pin. This mode was

intended for recovering transceivers from unknown settings and was not intended to be used

in real-time communications. The following modes are affected:

Modem mode = disabled

Parity mode = disabled

Interface Timeout = 0x40

It is also possible that future modes not yet implemented will be disabled by grounding

Forced_9600.

I N S T A N T A N E O U S R S S I

V A L I D A T E D R S S I

Signal Strength (dBm) = (-46.9

www.aerocomm.com

VRSSI )

–

53.9

H A R D W A R E I N T E R F A C E

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AC4490-200M-485 Laird Technologies, AC4490-200M-485 Datasheet - Page 31

AC4490-200M-485

Specifications of AC4490-200M-485

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