AD1970JSTZRL Analog Devices Inc, AD1970JSTZRL Datasheet - Page 10

IC,TV/VIDEO CIRCUIT,TV Stereo Circuit,QFP,48PIN,PLASTIC

AD1970JSTZRL

Manufacturer Part Number

AD1970JSTZRL

Description

IC,TV/VIDEO CIRCUIT,TV Stereo Circuit,QFP,48PIN,PLASTIC

Manufacturer

Analog Devices Inc

Type

Audio Encoderr

Datasheet

1.AD1970JSTZRL.pdf (20 pages)

Specifications of AD1970JSTZRL

Applications

Set-Top Boxes, Video Players, Recorders

Voltage - Supply, Analog

3 V ~ 3.6 V

Voltage - Supply, Digital

3 V ~ 3.6 V

Mounting Type

Surface Mount

Package / Case

48-LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD1970EB - BOARD EVALUATION FOR AD1970

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

AD1970JSTZRL

Manufacturer:

Analog Devices Inc

Quantity:

10 000

Current page: 10 of 20
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AD1970

SIGNAL PROCESSING

BACKGROUND OF BTSC

BTSC is the name of the standard for adding stereo audio capa-

bility to the US television system. It is in many ways similar to

the algorithm used for FM stereo broadcasts, with the addition

of a sophisticated compressor circuit to improve the signal-to-

noise ratio.

To maintain compatibility with non-BTSC TV receivers, the

processing of mono (L = R) signals is unchanged from the

original pre-BTSC system. The L + R signal is applied to a 75 µs

pre-emphasis filter, and is then applied to a 4.5 MHz FM mod-

ulator, which is later added to the video signal to create a

composite video signal.

Stereo capability is added by taking the L − R signal, applying it

to a 2-band dynamic compressor, and then multiplying this

signal by a carrier signal at twice the horizontal scanning rate

double sideband, suppressed-carrier modulation, and it

effectively translates the compressed L − R spectrum up in

frequency so that it sits above the audio band (see Figure 3).

), or about 2 × 15.734 kHz. This multiplication is known as

L-R IN

MATRIX

PRE-EMPH

SECOND

ORDER

L+R

L–R

PRE-EMPH

COMPRESSOR

FILTER

75µs

SPECTRAL TILT

FILTER

Figure 3. Signal Processing Flow

OSCILLATOR

NONLINEAR

FORMULA

Rev. 0 | Page 10 of 20

1/X

ORDER

EIGHT

LPF

2× Fh CARRIER

Fh PILOT

DETECT

RMS

For the receiver to recover this L − R signal, a pilot tone at the

horizontal rate is added to the signal. The receiver has a PLL

that locks to this pilot and generates a signal at the carrier

frequency. This signal is then used to multiply the composite

BTSC-encoded signal, which translates this component back

down to baseband. Once the L + R and L − R signals are

recovered, a simple addition/subtraction circuit (sometimes

referred to as the matrix) can be used to recover the right signal.

Since the pilot tone is added at 15.734 kHz, it is necessary to

reduce the bandwidth of the signal so that audio signals cannot

interfere with the pilot tone. In the AD1970, the bandwidth is

limited to 14 kHz; above this frequency, the response decays

very rapidly.

PERFORMANCE FACTORS

To maintain good separation between the left and right

channels, it is necessary to closely match the filtering and

companding standards set forth in the standard (FCC OET60).

Even small errors can result in poor performance. The AD1970

has been programmed to match these standards as accurately as

possible. Typical separation numbers range from 30 dB at

frequencies below 500 Hz to 15 dB at 13.5 kHz. Measuring these

numbers can be difficult, since significant differences exist

between many units sold as reference decoders, which are all

implemented with analog components.

BANDPASS

FOURTH

SECOND

ORDER

GAIN

DAC

MAIN

ALGORITHM

FLOW

AD1970JSTZRL Analog Devices Inc, AD1970JSTZRL Datasheet - Page 10

AD1970JSTZRL

Specifications of AD1970JSTZRL

Available stocks

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