TEA5757H/V1,557 NXP Semiconductors, TEA5757H/V1,557 Datasheet - Page 8

TEA5757H/V1,557

Manufacturer Part Number

TEA5757H/V1,557

Description

IC TUNED RADIO 12V 18MA 44-QFP

Manufacturer

NXP Semiconductors

Series

STRr

Type

Self Tuned Radio (STR)r

Datasheet

1.TEA5757HV1518.pdf (33 pages)

Specifications of TEA5757H/V1,557

Package / Case

44-MQFP, 44-PQFP

Frequency

AM, FM

Modulation Or Protocol

AM, FM

Applications

Self Tuned Radio (STR)

Current - Receiving

18.3mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

2.5 V ~ 12 V

Operating Temperature

-15°C ~ 60°C

Supply Voltage (max)

12 V

Supply Voltage (min)

2.5 V

Supply Current

19 mA

Operating Temperature Range

- 15 C to + 60 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Sensitivity

Memory Size

Data Rate - Maximum

Lead Free Status / Rohs Status

Compliant

Other names

935174080557
TEA5757HBNXP
TEA5757HBNXP

Current page: 8 of 33
Download datasheet (202Kb)

Philips Semiconductors

FUNCTIONAL DESCRIPTION

The TEA5757; TEA5759 is an integrated AM/FM stereo

radio circuit including digital tuning and control functions.

The radio

The AM circuit incorporates a double balanced mixer,

a one-pin low-voltage oscillator (up to 30 MHz) and is

designed for distributed selectivity.

The AM input is designed to be connected to the top of

a tuned circuit. AGC controls the IF amplification and for

large signals it lowers the input impedance of the

AM front-end.

The first AM selectivity can be an IF-Tank (IFT) as well as

an IFT combined with a ceramic filter; the second one is

an IFT.

The FM circuit incorporates a tuned RF stage, a double

balanced mixer, a one-pin oscillator and is designed for

distributed IF ceramic filters. The FM quadrature detector

uses a ceramic resonator (or LC).

The PLL stereo decoder incorporates a signal dependent

stereo-blend circuit and a soft-mute circuit.

Tuning

The tuning concept of the Self Tuned Radio (STR) is

based on FUZZY LOGIC: it mimics hand tuning (hand

tuning is a combination of coarse and fine tuning to the

qualitatively best frequency position). As a consequence

the tuning system is very fast.

The tuning algorithm, which is controlled by the sequential

circuit (see Fig.1), is completely integrated; so there are

only a few external components needed.

The bus and the microcontroller can be kept very simple.

The bus only consists of three wires (BUS-CLOCK, DATA

and WRITE-ENABLE). The microcontroller must basically

give two instructions:

In preset mode, the microcontroller has to load information

such as frequency band, frequency and mono/stereo. This

information has to be sent via the bus to the STR.

The internal algorithm controls the tuning sequence as

follows:

1. The information is loaded into the shift register, the

1999 Aug 26

RESET OPERATION

Preset operation

Search operation.

Self Tuned Radio (STR)

last-station memory and the counter.

2. The Automatic Frequency Control (AFC) is

3. The counter starts counting the frequency and the

4. The AFC is then switched on and the counter is

5. The real frequency is more precisely tuned to the

After the AFC has tuned the real frequency to the desired

frequency an in-lock signal can be generated. In order to

get a reliable in-lock signal, there are two parameters

measured: the field strength and the S-curve. The field

strength indicates the strength of the station and by

looking at the S-curve the system can distinguish false

in-locks from real in-locks (false in-locks occur on the

wrong slope of the S-curve).

In the event of fading or pulling the in-lock signal becomes

logic 0 and the synthesizer will be switched on again and

the algorithm will be repeated.

During a search operation, the only action the

microcontroller has to take is: sending the desired band

plus the direction and the search sensitivity level to the

STR. The search operation is performed by the charge

pump until an in-lock signal is generated (combination of

measuring the field strength and the S-curve). The AFC

then fine tunes to the station. The frequency belonging to

the found station will be counted by the counter and written

into the last-station memory and the shift register of the

counter. At this time the frequency is available in the shift

The microcontroller decides whether the frequency is

within the desired frequency band. If so, this frequency can

be stored under a preset and if not, a new search action

should be started.

To ensure that the search function operates correctly

under all conditions the following search sequence must

be applied:

EARCH OPERATION

Store the current frequency in the memory

Issue the search command

Wait for data valid and read the new frequency

If the new frequency is the same as the stored

frequency, issue a pre-set step (e.g. 50 kHz) and start

the search sequence again.

switched off.

tuning voltage is varied until the desired frequency

roughly equals the real frequency.

switched off.

desired frequency.

TEA5757; TEA5759

Product speciﬁcation

TEA5757H/V1,557 NXP Semiconductors, TEA5757H/V1,557 Datasheet - Page 8

TEA5757H/V1,557

Specifications of TEA5757H/V1,557

Related parts for TEA5757H/V1,557