T5743P6-TGS Atmel, T5743P6-TGS Datasheet - Page 13

T5743P6-TGS

Manufacturer Part Number

T5743P6-TGS

Description

IC RCVR300-450MHZ ASK/FSK 20SOIC

Manufacturer

Atmel

Datasheet

1.T5743P6-TGQ.pdf (41 pages)

Specifications of T5743P6-TGS

Frequency

300MHz ~ 450MHz

Sensitivity

-108dBm

Data Rate - Maximum

10 kBaud

Modulation Or Protocol

ASK, FSK

Applications

General Purpose Data Transmission Systems

Current - Receiving

30mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 105°C

Package / Case

20-SOIC (0.300", 7.50mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Memory Size

Other names

T5743N-TGS
T5743N-TGS
T5743P6-TG
T5743P6-TG
T5743PG-TGS
T5743PG-TGS

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Figure 11. Timing Diagram for Complete Successful Bit Check

Bit-check Mode

Configuring the Bit Check

4569A–RKE–12/02

IC_ACTIVE

( Number of checked Bits: 3 )

Bit check

Dem_out

Data_out (DATA)

Start-up mode

Start-up

In bit-check mode the incoming data stream is examined to distinguish between a valid

signal from a corresponding transmitter and signals due to noise. This is done by subse-

quent time frame checks where the distances between two signal edges are

continuously compared to a programmable time window. The maximum count of this

edge-to-edge tests before the receiver switches to receiving mode is also

programmable.

Assuming a modulation scheme that contains two edges per bit, two time frame checks

are verifying one bit. This is valid for Manchester, Bi-phase and most other modulation

schemes. The maximum count of bits to be checked can be set to 0, 3, 6 or 9 bits via the

variable N

checks respectively. If N

switch to receiving mode due to noise. In the presence of a valid transmitter signal, the

bit check takes less time if N

time is not dependent on N

successfully and the data signal is transferred to Pin DATA.

According to Figure 12, the time window for the bit check is defined by two separate

time limits. If the edge-to-edge time t

the upper bit-check limit T

switches to sleep mode.

Figure 12. Valid Time Window for Bit Check

For best noise immunity it is recommended to use a low span between T

preburst. A “11111...” or a “10101...” sequence in Manchester or Bi-phase is a good

choice concerning that advice. A good compromise between receiver sensitivity and

susceptibility to noise is a time window of ±25% regarding the expected edge-to-edge

time t

bit-check limits must be programmed according to the required span.

The bit-check limits are determined by means of the formula below.

Lim_max

Lim_min

. Using pre-burst patterns that contain various edge-to-edge time periods, the

. This is achieved using a fixed frequency at a 50% duty cycle for the transmitter

or t

Bit-check

1/2 Bit

exceeds T

in the OPMODE register. This implies 0, 6, 12 and 18 edge to edge

Dem_out

1/2 Bit

Bit-check mode

Bit-check

Lim_max

Bit-check

Lim_max

1/2 Bit

Bit–check

is set to a higher value, the receiver is less likely to

, the bit check will be terminated and the receiver

. Figure 11 shows an example where 3 bits are tested

, the check will be continued. If t

Bit check ok

1/2 Bit

is set to a lower value. In polling mode, the bit-check

Lim_min

Lim_max

is in between the lower bit-check limit T

1/2 Bit

1/f

Sig

1/2 Bit

Receiving mode

is smaller than

T5743

Lim_min

and

T5743P6-TGS Atmel, T5743P6-TGS Datasheet - Page 13

T5743P6-TGS

Specifications of T5743P6-TGS

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