U2745B-MFBG3 Atmel, U2745B-MFBG3 Datasheet - Page 4

U2745B-MFBG3

Manufacturer Part Number

U2745B-MFBG3

Description

IC TRANSMITTER UHF ASK 16-SSOP

Manufacturer

Atmel

Datasheet

1.U2745B-MFB.pdf (9 pages)

Specifications of U2745B-MFBG3

Frequency

310MHz ~ 440MHz

Modulation Or Protocol

UHF, ASK

Data Rate - Maximum

20 kBaud

Power - Output

1dBm ~ 5dBm

Current - Transmitting

10mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

2.2 V ~ 4 V

Operating Temperature

-40°C ~ 85°C

Package / Case

16-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Applications

Memory Size

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General Description

Functional

Description

ASK Transmission

Take-over of the Clock

Pulse in the

Microcontroller

Application Circuit

Output Power

Measurement

U2745B

The fully integrated VCO and the “single-ended open-collector” output allow particularly

simple, low-cost RF miniature transmitters to be assembled. The single-ended output

enables a considerably simplified adaptation of both a magnetic loop antenna of any

form or a l /4 antenna. This is because the load impedance must not be balanced as

would be the case with a differential output.

The XTO's frequency can be selected to be either 13.56 MHz or 9.844 MHz (USA). At

these frequencies, crystals have a very fast start-up time (< 1.5 ms), whereby a wait

time of 5 to 10 ms is required until the transmitter IC is locked. This means that the pro-

cessor does not need to poll a lock detect output.

The U2745B is activated by EN = V

power can be modulated by means of pin ASK. V

sion of the message. The ASK input activates the power amplifier and the PLL.

The clock of the crystal oscillator can be used for clocking the microcontroller. The

ATAR090 and ATAR890 have the special feature of starting with an integrated RC oscil-

lator to switch on the U2745B with V

present, so that the message can be sent with crystal accuracy.

The following component values are recommendations for a typical application. C

and C

between f = 100 MHz and f = 1 GHz should be as low as possible.

tation to the appropriate impedance transformation is possible.

The following output network (see Figure 4 on page 5) can be used for output power

evaluation, the exact values of L

50 W . The following table shows the values for an output power of 2 mW and an

Table 1. Transformation Network

Feed

F e e d

Loop1

PWRSET

= 1 nF, C

and C

= 220 nH. L

433.92

f/MHz

and C

is an inductor for the antenna's DC current supply. A typical value is

are block capacitors. The values of these capacitors depend on the board layout.

315

= 1.2 k W .

form the transformation network to adopt the output impedance of the IC to

Loop2

= 1 nF, and C

Feed

are selected so that the antenna oscillates in resonance and the adap-

can be either printed on the PC board or be a discrete component.

C10/pF

2.7

1.8

= 22 nF are typically used here. For C

and C

. V

= V

ASK

are dependent on the layout.

. 5 ms later, the 3.39-MHz clock frequency is

must remain 0 V for 5 ms, then the output

L10/nH

remains = V

during the transmis-

260 + j330

185 + j268

, the impedance

Load_opt

4734A–RKE–11/03

/ W

, C

U2745B-MFBG3 Atmel, U2745B-MFBG3 Datasheet - Page 4

U2745B-MFBG3

Specifications of U2745B-MFBG3

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