U4223B ATMEL Corporation, U4223B Datasheet - Page 5

U4223B

Manufacturer Part Number

U4223B

Description

Time-code Receiver With A/d Converter

Manufacturer

ATMEL Corporation

Datasheet

1.U4223B.pdf (18 pages)

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Rev. A7, 06-Mar-01

In order to minimize interferences, we recommend a

voltage swing of about 100 mV. A full supply-voltage

swing is possible but reduces the sensitivity.

Please note:

The signals and voltages at the Pins REC, INT, FLA,

FLB, Q1A, Q1B, Q2A and Q2B cannot be measured by

standard measurement equipment due to very high inter-

nal impedances. For the same reason, the PCB should be

protected against surface humidity.

Design Hints for the Ferrite Antenna

The bar antenna is a very critical device of the complete

clock receiver. Observing some basic RF design rules

helps to avoid possible problems. The IC requires a reso-

nant resistance of 50 kW to 200 kW. This can be achieved

by a variation of the L/C-relation in the antenna circuit.

It is not easy to measure such high resistances in the RF

region. A more convenient way is to distinguish between

the different bandwidths of the antenna circuit and to cal-

culate the resonant resistance afterwards.

100

clk

VCC

CLK

GND

Rising edge initiates

AGC signal conversion

Figure 14.

Figure 15.

Now, the AGC value can be read

Falling edge initiates

time-code conversion

Now, the time-code

signal can be read

t/ms

Thus, the first step in designing the antenna circuit is to

measure the bandwidth. Figure 17 shows an example for

the test circuit. The RF signal is coupled into the bar

antenna by inductive means, e.g., a wire loop. It can be

measured by a simple oscilloscope using the 10:1 probe.

The input capacitance of the probe, typically about 10 pF,

should be taken into consideration. By varying the fre-

quency of the signal generator, the resonant frequency

can be determined.

At the point where the voltage of the RF signal at the

probe drops by 3 dB, the two frequencies can then be

measured. The difference between these two frequencies

is called the bandwidth BW

value of the capacitor C

it is easy to compute the resonant resistance according to

the following formula:

where

(in Farad).

If high inductance values and low capacitor values are

used, the additional parasitic capacitances of the coil

(v20 pF) must be considered. The Q value of the capa-

citor should be no problem if a high Q type is used. The

Q value of the coil differs more or less from the DC

resistance of the wire. Skin effects can be observed but do

not dominate.

Therefore, it should not be a problem to achieve the

recommended values of the resonant resistance. The use

of thicker wire increases the Q value and accordingly

reduces bandwidth. This is advantageous in order to

improve reception in noisy areas. On the other hand,

temperature compensation of the resonant frequency

might become a problem if the bandwidth of the antenna

circuit is low compared to the temperature variation of the

resonant frequency. Of course, the Q value can also be

reduced by a parallel resistor.

res

wire loop

is the resonant resistance,

is the value of the capacitor in the antenna circuit

is the measured bandwidth (in Hz)

RF signal

generator

77.5 kHz

res

Figure 16.

res

in the antenna circuit is known,

of the antenna circuit. As the

res

w10 MW

Probe

10 : 1

U4223B

Scope

5 (18)

U4223B ATMEL Corporation, U4223B Datasheet - Page 5

U4223B

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