Document Outline

FEATURES
GENERAL DESCRIPTION
ORDERING INFORMATION
BLOCK DIAGRAM
PINNING
FUNCTIONAL DESCRIPTION
- Record mode
- Playback mode
- Loop-through mode
- I 2 C-bus
- Power-On Reset (POR); derived from digital supply VDDD
- Control byte
- Select byte
- Input byte
- Function byte
- Record volume left and right byte
- Headphone volume byte
LIMITING VALUES
HANDLING
THERMAL CHARACTERISTICS
DC CHARACTERISTICS
AC CHARACTERISTICS
- Record mode
- Playback mode
INTERNAL CIRCUITRY
TEST AND APPLICATION INFORMATION
- Adjustment of VCO frequency
- Standard FM deviation and audio level
- Power-down mode
- RAF I/O
PACKAGE OUTLINE
- SOT319-2
SOLDERING
DEFINITIONS
LIFE SUPPORT APPLICATIONS
PURCHASE OF PHILIPS I 2 C COMPONENTS

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

FEATURES

Integrated High Frequency (HF) low-pass filter (LPF)
and summator

Low-noise Phase-Locked Loop (PLL) FM (de)modulator

Low-distortion sample-and-hold switching noise
suppressor

Integrated audio low-pass filter

4 stereo input selectors (left [L] and right [R] channel):

EXT1L and EXT1R

EXT2L and EXT2R

CINL and CINR

TUNL and TUNR

Additional mono inputs for linear audio: EXN1 and EXN2

DC output for VU meter drive

Direct headphone drive

Linear input/linear output

Modulator output with overload Automatic Gain
Control (AGC)

RAF (Record Audio FM) for head amplifier control

Power-down mode facility

C-bus control of:

line input volume

headphone output volume

input/output selector

PAL/NTSC mode

E-E performance (record + playback):

Total Harmonic Distortion (THD): 0.05%

(

8 dBV, 1 kHz)

linearity error: 0.1 dB (

88 dBV)

noise:

93 dBV (20 Hz to 20 kHz).

GENERAL DESCRIPTION

The TDA9610H is a dual audio FM processing IC for VHS
hi-fi audio, digitally controlled via the I

C-bus. The

FM (de)modulator and peak noise reduction functions are
highly integrated, resulting in few external components
and adjustments.

In addition special functions for audio editing, mixing and
dubbing have been implemented.

ORDERING INFORMATION

Note

1. When using IR reflow soldering it is recommended that the Drypack instructions in the

"Quality Reference

Handbook" (order number 9398 510 63011) are followed.

TYPE NUMBER

PACKAGE

NAME

DESCRIPTION

VERSION

TDA9610H

QFP64

(1)

plastic quad flat package; 64 leads (lead length 1.95 mm);
body 14

2.8 mm

SOT319-2

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

BLOCK DIAGRAM

handbook, full pagewidth

MRC083 - 1

1.3 MHz

1.4 MHz

CCO

1.7 MHz

1.8 MHz

CCO

LPF

RAF

LIMITER

LEVEL

DETECT

NTSC

LOOP

FILTER

LOOP

FILTER

AUDIO

CLIPPER

AUDIO

CLIPPER

SAMPLE-

AND-

HOLD

SAMPLE-

AND-

HOLD

VL5 to VL0

VR5 to VR0

ISH and ISL

NSS, NSH

and NSL

I C

MUTE

ONE

SCHOT

SUPPLY AND V

ref

GAIN

ADJUST

AUDIO

LPF

IPAF + RAF

AUDIO

LPF

NOISE REDUCTION

VH4 to VH0

HSL and HSR

SAOL,

SAOR,

SAON

HSF

MODAGC

MODOUT

LINER

LINEL

HPOUTR

HPOUTL

DCOUTR

DCOUTL

DCFBL

DCREFL

EMPHL

RECTL

DETL

RFIX

RVAR

AFOUTR

AFINR

AFOUTL

AFINL

SSD

SDA

SCL

RAF

MUTE

ENVOUT

HID

FADJL

ref

SSA1

SSH

DDA1

DDH

SSA2

DDA2

DDD

NTSC

FMINL

FMOUT

LIMITER

FMINR

n.c.

i.c.

TDA9610H

FADJR

TUNL

TUNR

CINL

CINR

EXT1L

EXT1R

EXT2L

EXT2R

EXN1

EXN2

LINOUT

DCFBR

EMPHR

DETR

DCREFR

RECTR

LININ

n.c.

Fig.1 Block diagram.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

PINNING

SYMBOL

PIN

DESCRIPTION

AFINL

audio input for either audio clipper (record) or noise reduction (playback) of left
channel

AFOUTL

audio output from either sample-and-hold (playback) or noise reduction (record and
loop-through) of left channel

EXT2L

input selector for left channel

EXT2R

input selector for right channel

EXT1L

input selector for left channel

EXT1R

input selector for right channel

CINL

input selector for left channel

CINR

input selector for right channel

TUNL

input selector for left channel

TUNR

input selector for right channel

ENVOUT

level detector output; external capacitor required for filtering

MUTE

mute timing; external capacitor required for timing playback mute

DDD

digital supply voltage (+5 V)

RAF

overrule the I

C-bit RAF input or record/playback switch drive output for head

amplifier control

SSD

C-bus digital ground

SDA

C-bus data input

SCL

C-bus clock input

auxiliary switch; digital output controlled by I

C-bit XS

DDA1

analog supply voltage 1 (+12 V)

DDH

headphone supply voltage (+12 V)

SSH

headphone ground

HPOUTL

headphone drive output left

HPOUTR

headphone drive output right

RVAR

gain adjustment of noise reduction by means of a resistor to ground

RFIX

fixed bias current generation circuit by using an external 100 k

resistor to ground

i.c.

pin internally connected to die pad; preferably connected to ground

LINEL

line output left

LINER

line output right

MODAGC

RF modulator AGC-time constant

MODOUT

RF modulator drive output

DCOUTL

VU meter drive output left

DCOUTR

VU meter drive output right

LININ

linear input

n.c.

not connected

DCFBL

DC feedback left

DCREFL

DC reference left

EMPHL

total emphasis left (20 to 240

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

RECTL

rectifier DC decoupling left

DETL

attack/recovery timing left

ref

noise filtering of 3.8 V reference voltage; external capacitor required for filtering

SSA1

analog ground for LF circuits

DETR

attack/recovery timing right

RECTR

rectifier DC decoupling right

EMPHR

total emphasis right (20 to 240

DCREFR

DC reference right

DCFBR

DC feedback left

LINOUT

linear output

EXN1

EXN input (external normal input); mono input selectable to linear output

AFOUTR

audio output from either sample-and-hold (playback) or noise reduction (record and
loop-through) of right channel

AFINR

audio input for either audio clipper (record) or noise reduction (playback) of right
channel

HID

head identification pulse input for sample-and-hold circuits

EXN2

EXN input (external normal input); mono input selectable to linear output

FADJR

frequency adjustment of right channel oscillator by means of a variable resistor

n.c.

not connected; preferably connected to ground

FMINR

1.7 to 1.8 MHz input for limiter

FMOUT

FM output

DDA2

analog supply voltage (+5 V)

i.c.

pin internally connected to die pad; preferably connected to ground

SSA2

analog ground for HF circuits

NTSC

digital output controlled by I

C-bit NTSC

FMINL

1.3 to 1.4 MHz input for limiter

n.c.

not connected; preferably connected to ground

n.c.

not connected; preferably connected to ground

FADJL

frequency adjustment of left channel oscillator by means of a variable resistor

SYMBOL

PIN

DESCRIPTION

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

handbook, full pagewidth

TDA9610H

MKA319 - 1

FADJL

n.c.

i.c.

FMINL

NTSC

FMOUT

FMINR

FADJR

EXN2

n.c.

SSA2

DDA2

HID

AFINR

AFOUTR

EXN1

LINOUT

DCFBR

DCREFR

EMPHR

RECTR

DETR

DETL

RECTL

EMPHL

DCREFL

DCFBL

n.c.

LININ

SSA1

ref

DDH

VDDA1

V SSD

VDDD

RAF

MUTE

ENVOUT

TUNR

TUNL

CINR

CINL

EXT1R

EXT1L

EXT2R

EXT2L

AFOUTL

AFINL

SDA

SCL

SSH

HPOUTL

HPOUTR

RVAR

RFIX

i.c.

LINEL

LINER

MODAGC

MODOUT

DCOUTL

DCOUTR

Fig.2 Pin configuration.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

FUNCTIONAL DESCRIPTION

The IC is intended for use within the audio FM system of
VHS video recorders. Three modes of operation can be
distinguished:

Record mode

Playback mode

Loop-through mode.

Switching and control of the three modes is done by the
I

C-bus.

Record mode

The audio signal, selected from the four stereo audio
inputs (EXT1L, EXT1R, EXT2L, EXT2R, CINL, CINR,
TUNL and TUNR), is fed to the volume control stage
(separate for left [L] and right [R]). The information for
LINOUT is, after summing of L and R, derived from either
one of the four stereo inputs or the volume control output
or one of the mono inputs (EXN1 and EXN2). After the
Low-Pass Filter (LPF) and signal compression in the noise
reduction (NR) and filter block the audio signal is available
at AFOUTL and AFOUTR. The compressed signal is now
FM modulated on a RF carrier in the PLL block. After
low-pass filtering and summation of both RF carriers
(L and R) the signal is available at FMOUT.

The output select block offers the possibility to choose
eight different audio signal modes:

1. Stereo.

2. Left.

3. Right.

4. Mono.

5. Normal.

6. Mixed stereo (stereo + LININ).

7. Mixed left (left + LININ).

8. Mixed right (right + LININ).

These audio signal modes are selectable for the output
stages LINEL, LINER and MODOUT. The standard audio
output is LINEL and LINER, e.g. for SCART output.
MODOUT is a mono audio output, with an
overload-protecting AGC, to drive an external
RF modulator.

The headphone select block offers the possibility to
choose either the output select signal or four independent
audio signal modes (stereo, left, right and normal) for the
output stages HPOUTL and HPOUTR.
HPOUTL and HPOUTR, with common volume control for
L and R, is suitable for direct headphone drive.

DCOUTL and DCOUTR are intended for VU meter drive.
It is connected to the selected stereo audio input after the
volume control block. The output signal at
DCOUTL and DCOUTR is proportional to the square root
of the recorded audio signal (see Fig.3).

Playback mode

The two FM modulated RF carriers, present at the two
FMINL and FMINR inputs after being band-pass filtered,
are demodulated in the PLL block. The LF audio signal is
fed through a sample-and-hold circuit to suppress
head-switching noise. The demodulated audio signal is
available at AFOUTL and AFOUTR. The audio signal is
low-pass filtered and expanded in the noise reduction (NR)
and filter block. The resulting audio signal is available after
the output and headphone select blocks for all four output
stages (LINEL, LINER, MODOUT, HPOUTL, HPOUTR,
DCOUTL and DCOUTR). The functionality of the output
and headphone select blocks is identical to the record
mode. During playback DCOUTL and DCOUTR are
connected to the headphone select block.

The functionality of the input and normal select blocks is
also identical to record mode (see Fig.3), which offers the
possibility to control (other) audio signals independently
for LINOUT (see Fig.4).

Loop-through mode

This mode is similar to the record mode (see Fig.3), except
for the FMOUT pin, which is inactive, and the RAF output
which is active LOW (see Fig.5).

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

VOLUME

CONTROL

HEAD-

PHONE

SELECT

OUTPUT

SELECT

AND

FILTER

INPUT

SELECT

PLL

VOLUME

CONTROL

NORMAL

SELECT

3,4

61,55

5,6

7,8

9,10

22,23

27,28

31,32

2,49

1,50

AFINL/R

AFOUTL/R

FMINL/R

FMOUT

EXT2L/R

EXT1L/R

EXN1

EXN2

CINL/R

TUNL/R

LINOUT

LININ

MKA359 - 1

DCOUTL/R

HPOUTL/R

MODOUT

LINEL/R

TDA9610H

Fig.3 Record mode.

VOLUME

CONTROL

HEAD-

PHONE

SELECT

OUTPUT

SELECT

AND

FILTER

INPUT

SELECT

PLL

VOLUME

CONTROL

NORMAL

SELECT

3,4

61,55

5,6

7,8

9,10

22,23

27,28

31,32

2,49

1,50

AFINL/R

AFOUTL/R

FMINL/R

FMOUT

EXT2L/R

EXT1L/R

EXN1

EXN2

CINL/R

TUNL/R

LINOUT

LININ

MKA360 - 1

DCOUTL/R

HPOUTL/R

MODOUT

LINEL/R

TDA9610H

Fig.4 Playback mode.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

C-bus

Bus specification in accordance with I

C-bus specification. Full details of the I

C-bus are given in the document

"The

C-bus and how to use it". This document may be ordered using the code 9398 393 40011.

The address and data bytes of the TDA9610H are shown in Table 1.

Table 1

TDA9610H address and data bytes

Notes

1. See Section "Control byte".

2. See Section "Select byte".

3. See Section "Input byte".

4. See Section "Function byte".

5. See Section "Record volume left and right byte".

6. See Section "Headphone volume byte".

NAME

ADDRESS

Slave address (B8)

Control byte

(1)

IPAF

RAF

NTSC

PAFM

MUTE

Select byte

(2)

SAOL

SAOR

SAON

HSF

NSS

Input byte

(3)

ISH

ISL

NSH

NSL

Function byte

(4)

HSL

HSR

TEST

Record volume left byte

(5)

VL5

VL4

VL3

VL2

VL1

VL0

Record volume right byte

(5)

VR5

VR4

VR3

VR2

VR1

VR0

Headphone volume byte

(6)

VH4

VH3

VH2

VH1

VH0

VOLUME

CONTROL

HEAD-

PHONE

SELECT

OUTPUT

SELECT

AND

FILTER

INPUT

SELECT

PLL

VOLUME

CONTROL

NORMAL

SELECT

3,4

61,55

5,6

7,8

9,10

22,23

27,28

31,32

2,49

1,50

AFINL/R

AFOUTL/R

FMINL/R

FMOUT

EXT2L/R

EXT1L/R

EXN1

EXN2

CINL/R

TUNL/R

LINOUT

LININ

MKA361 - 1

DCOUTL/R

HPOUTL/R

MODOUT

LINEL/R

TDA9610H

Fig.5 Loop-through mode.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Power-On Reset (POR); derived from digital supply V

DDD

In the data byte descriptions [por] indicates the mode after POR.

The status of the data bytes after POR is shown in Table 2.

Table 2

TDA9610H address and data bytes after POR

Notes

1. See Section "Control byte".

2. See Section "Select byte".

3. See Section "Input byte".

4. See Section "Function byte".

5. See Section "Record volume left and right byte".

6. See Section "Headphone volume byte".

NAME

ADDRESS

Control byte

(1)

Select byte

(2)

Input byte

(3)

Function byte

(4)

Record volume left byte

(5)

Record volume right byte

(5)

Headphone volume byte

(6)

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Control byte

Table 3

Bits of control byte

Table 4

Bits IPAF and RAF

Notes

1. The RAF bit can be overruled externally by applying a low-ohmic voltage to the RAF I/O (pin 14) either logic 0 or

logic 1 (0 or +5 V). The actual mode of the IC is determined by the level measured at this pin.

2. The two record modes are equal, only differing in their reaction to forcing RAF LOW at the RAF I/O pin; the status of

the IPAF bit determines whether the IC is switched to the playback or loop-through mode.

Table 5

Bit NTSC

Table 6

Bit PAFM

Note

1. Bit PAFM has the same effect as the internally generated mute signal from the modem part when no FM carrier is

detected during playback mode. If one (or both) of these signals is HIGH, the audio signal coming from the modem
is muted.

Table 7

Bit MUTE

BIT

DESCRIPTION

IPAF

Inverse Playback Audio FM; see Table 4

RAF

Record Audio FM; see Table 4

NTSC

National Television Standards Committee; television standard; see Table 5

PAFM

Playback Audio FM Mute; see Table 6

MUTE

Mute; see Table 7

IPAF

RAF

(1)

MODE

DESCRIPTION

playback

NR and modem in playback mode

loop-through

NR in record mode; modem not active [por]

record

(2)

NR and modem in record mode

record

(2)

NR and modem in record mode

NTSC

MODE

DESCRIPTION

PAL

modem set to PAL carrier frequencies [por]

NTSC

modem set to NTSC carrier frequencies

PAFM

(1)

MODE

DESCRIPTION

PB mute

the signal from the modem is muted in playback mode

MUTE

MODE

DESCRIPTION

full mute

all audio outputs are muted [por]

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Select byte

Table 8

Bits of select byte

Table 9

Bits SAOL, SAOR and SAON; note 1

Note

1. The bits SAOL, SAOR and SAON provide eight output select functions, left and right are the left and right hi-fi

channels, normal is the conventional audio channel, linear audio input (LININ; pin 33).

BIT

DESCRIPTION

SAOL

Select Audio Output Left; see Table 9

SAOR

Select Audio Output Right; see Table 9

SAON

Select Audio Output Normal; see Table 9

HSF

Headphone Select Function; see Table 10

NSS

Normal Special Select; see Table 11

SAOL

SAOR

SAON

MODE

DESCRIPTION

stereo

left at LINEL, right at LINER [por]

left

left at both LINEL and LINER

right

right at both LINEL and LINER

mono

left + right added at both LINEL and LINER (hi-fi mono)

mixed stereo

left + normal added at LINEL, right + normal added at
LINER

mixed left

left + normal added at both LINEL and LINER

mixed right

right + normal added at both LINEL and LINER

normal

normal (is linear audio) at both LINEL and LINER

Table 10 Bit HSF; note 1

Note

1. Normally the headphone outputs carry the same audio

signal as present at the line outputs
(LINEL and LINER), so the signal is selectable by
means of the bits SAOL, SAOR and SAON. However
when bit HSF is set HIGH, the headphone output has
its own output select function switchable with bits HSL
and HSR to stereo, left, right and normal
(see Section "Function byte").

HSF

MODE

DESCRIPTION

headphone output signals
identical to line outputs
LINEL and LINER [por]

headphone

select

headphone output signals
independently selectable

Table 11 Bit NSS; note 1

Note

1. Normally the bits NSH and NSL select one of the four

possible stereo line inputs (TUNL/R, CINL/R,
EXT1L/R, EXT2L/R) as the source signal for linear out.
Left and right channels of the selected input are added
to give a mono signal as output.

When bit NSS is set HIGH, four special input selects
can be made in combination with the same bits NSH
and NSL; volume controlled, tuner left (TUNL), EXN1
and EXN2 (see Section "Input byte").

NSS

MODE

DESCRIPTION

signal at LINOUT is the mono
version of selected stereo line
input pair [por]

normal

special select

special output signals selectable
for LINOUT

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Input byte

Table 12 Bits of input byte

Table 13 Bits ISH and ISL; note 1

Note

1. With bits ISH and ISL the stereo input signal is selected which is fed to the hi-fi processing. One out of four stereo

sources can be selected. The terms: Tuner, Cinch, Ext1 and Ext2 are used for describing purposes only, technically
all four inputs are equal (except for the fact that tuner left (TUNL, pin 6) is also selectable by Normal Select).

Table 14 Bits NSH, NSL and NSS; note 1

Notes

1. With bits NSH and NSL in combination with bit NSS the input signal is selected which is fed out at pin 47 (LINOUT).

With bit NSS set LOW a selection can be made between the four stereo line inputs (like the hi-fi input select). With
bit NSS set HIGH, bits NSH and NSL make a selection between four special select functions.

When a stereo input source is selected, both channels are added to obtain a mono output signal, then the output

signal at LINOUT is equal to:

In the Volume mode the output signal is equal to:

Note that for the Volume mode the hi-fi input select (ISH and ISL) determines the used input source.

2. NSS from select byte.

BIT

DESCRIPTION

ISH

Input Select HIGH; see Table 13

ISL

Input Select LOW; see Table 13

NSH

Normal Select HIGH; see Table 14

NSL

Normal Select LOW; see Table 14

ISH

ISL

MODE

DESCRIPTION

Tuner

TUNL and TUNR selected (as hi-fi stereo input source) [por]

Cinch

CINL and CINR selected

Ext1

EXT1L and EXT1R (e.g. Scart input) selected

Ext2

EXT2L and EXT2R selected

NSH

NSL

NSS

(2)

MODE

DESCRIPTION

Tuner

TUNL and TUNR selected (as normal audio input source) [por]

Cinch

CINL and CINR selected

Ext1

EXT1L and EXT1R selected

Ext2

EXT2L and EXT2R selected

Volume

hi-fi input source selected; taken after record volume control

Exn1

additional mono input (EXN1, pin 48) selected

Tuner left

only TUNL selected (e.g. dual language)

Exn2

additional mono input (EXN2, pin 52) selected

(

)

--------------------

Volume Left

Volume Right

(

)

-----------------------------------------------------------------------------------------------------

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Function byte

Table 15 Bits of function byte

Table 16 Bits HSL, HSR and HSF; note 1

Notes

1. Normally (bit HSF set LOW) the headphone outputs carry the same audio signal as present at the line outputs

(LINEL and LINER), so the signal is selectable by means of the bits SAOL, SAOR and SAON. However, when bit
HSF is set HIGH the headphone output has its own output select function switchable with bits HSL and HSR.

a) These special headphone selections are also active for the VU meter drive during playback.

2. HSF from select byte.

Table 17 Bit XS

BIT

DESCRIPTION

HSL

Headphone Select Left; see Table 16

HSR

Headphone Select Right; see Table 16

auxiliary Switch; see Table 17

TEST

Test; see Table 18

HSL

HSR

HSF

(2)

MODE

DESCRIPTION

outsel

headphone output signal identical to LINEL and LINER

outsel

headphone output signal identical to LINEL and LINER

outsel

headphone output signal identical to LINEL and LINER

outsel

headphone output signal identical to LINEL and LINER [por]

stereo

left at HPOUTL, right at HPOUTR

left

left at both HPOUTL and HPOUTR

right

right at both HPOUTL and HPOUTR

normal

normal (is linear audio) at both HPOUTL and HPOUTR

MODE

DESCRIPTION

XS output LOW [por]

XS output HIGH

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Table 18 Bits TEST, HSL, HSR and XS; note 1

Notes

1. X = don't care.

2. With TEST bit set HIGH, the IC can be switched between several special modes for testing and adjustment purposes,

by means of bits HSL and HSR.

Record volume left and right byte

Table 19 Record volume left/right byte; note 1

TEST

(2)

HSL

HSR

MODE

DESCRIPTION

[por]

VCO test L

in record mode; only 1.4 or 1.3 MHz at output

VCO test R

in record mode; only 1.8 or 1.7 MHz at output

Test

not for application

Test

not for application

Test

not for application

Test

not for application

VL5

VL4

VL3

VL2

VL1

VL0

MUTE

(2)

MODE

VR5

VR4

VR3

VR2

VR1

VR0

mute [por]

mute

48 dB

47 dB

46 dB

45 dB

44 dB

43 dB

42 dB

41 dB

40 dB

39 dB

38 dB

37 dB

36 dB

35 dB

34 dB

33 dB

32 dB

31 dB

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

30 dB

29 dB

28 dB

27 dB

26 dB

25 dB

24 dB

23 dB

22 dB

21 dB

20 dB

19 dB

18 dB

17 dB

16 dB

15 dB

14 dB

13 dB

12 dB

11 dB

10 dB

9 dB

8 dB

7 dB

6 dB

5 dB

4 dB

3 dB

2 dB

1 dB

0 dB

1 dB

2 dB

3 dB

4 dB

5 dB

6 dB

7 dB

8 dB

VL5

VL4

VL3

VL2

VL1

VL0

MUTE

(2)

MODE

VR5

VR4

VR3

VR2

VR1

VR0

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Notes

1. X = don't care.

2. MUTE from control byte.

Headphone volume byte

Table 20 Headphone volume byte

9 dB

10 dB

11 dB

12 dB

13 dB

14 dB

VH4

VH3

VH2

VH1

VH0

MODE

mute

44 dB

42 dB

40 dB

38 dB

36 dB

34 dB

32 dB

30 dB

28 dB

26 dB

24 dB

22 dB

20 dB

18 dB

16 dB

14 dB

12 dB

10 dB

8 dB

6 dB

4 dB

2 dB

0 dB

(1)

2 dB

4 dB

VL5

VL4

VL3

VL2

VL1

VL0

MUTE

(2)

MODE

VR5

VR4

VR3

VR2

VR1

VR0

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Note

1. This is the situation after Power-On Reset (POR).

LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 134).

HANDLING

All pins are meeting the ESD requirements.

Remark: Pin 1 showed a higher sensitivity during the latch-up test and was not fully meeting the test limits.

THERMAL CHARACTERISTICS

6 dB

8 dB

10 dB

12 dB

14 dB

16 dB

SYMBOL

PARAMETER

MIN.

MAX.

UNIT

DDA1

analog supply voltage

13.2

DDA2

analog supply voltage

5.5

DDH

headphone supply voltage

13.2

DDD

digital supply voltage

5.5

voltage on pins:

1, 3, 4, 5, 6, 7, 8, 9, 10, 39, 42, 48, 50 and 52

7.7

11, 12, 56 and 60

DDA2

14 and 18

DDD

stg

storage temperature

+150

amb

operating ambient temperature

+70

SYMBOL

PARAMETER

VALUE

UNIT

th j-a

thermal resistance from junction to ambient in free air

K/W

VH4

VH3

VH2

VH1

VH0

MODE

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

DC CHARACTERISTICS
V

DDA1

= 12 V; V

DDA2

= 5 V; f

OUTR

= 1.8 MHz; f

OUTL

= 1.4 MHz; NTSC = 0; f

= 1 kHz; T

amb

= 25

C; all volume control

levels set to 0 dB; measured in test circuit (see Fig.12); unless otherwise specified.

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

Supply voltages

DDA1

analog supply voltage; pin 19

10.5

13.2

DDA2

analog supply voltage; pin 57

4.75

5.25

DDH

headphone supply voltage; pin 20

10.5

13.2

DDD

digital supply voltage; pin 13

4.75

5.25

Supply currents

DDA1

analog supply current; pin 19

DDA2

analog supply current; pin 57

record or
loop-through

playback

DDH

headphone supply current; pin 20

3.5

4.5

DDD

digital supply current; pin 13

0.5

Input voltages

DC input voltage; pins 1, 3, 4, 5, 6,
8, 9, 10, 33, 48, 50, 52

3.8

55,61

DC input voltage internally
generated; pins 55 and 61

Output voltages

DC output voltage:

pins 27 and 28

pins 22 and 23

5.5

pins 2, 30, 40, 49, 53 and 64

3.8

pin 47

pin 24

0.5

pin 25

2.0

pin 56

record mode

1.2

Head identification pulse input (HID; pin 51)

HIGH level input voltage

2.75

5.25

LOW level input voltage

2.25

Auxiliary switch output (XS; pin 18)

HIGH level output voltage

500

DDD

0.5

LOW level output voltage

= 500

0.5

Digital output (NTSC; pin 60)

HIGH level output voltage

500

DDA2

0.5

LOW level output voltage

= 500

0.5

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

AC CHARACTERISTICS

Record mode
Audio input signal

8 dBV from TUNL and TUNR (pins 9 and 10).

I/O RAF (pin 14); used as output

HIGH level output voltage

RAF = 1;
I

DDD

0.25

DDD

LOW level output voltage

RAF = 0;
I

= 185

0.4

HIGH level output current (drive
capability)

RAF = 1

LOW level output current (drive
capability)

RAF = 0

185

I/O RAF (pin 14); used as input (output overruled)

HIGH level input voltage

3.5

DDD

LOW level input voltage

1.5

HIGH level input current

at V

345

LOW level input current

at V

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

Audio inputs (EXT1L, EXT1R, EXT2L, EXT2R, CINL, CINR, TUNL, TUNR, EXN1 and EXN2;
pins 3, 4, 5, 6, 7, 8, 9, 10, 48 and 52)

input resistance

100

130

iAF

audio input voltage

dBV

Linear input (LININ; pin 33); select mode: linear

input resistance

8 dBV; f = 1 kHz

100

line output voltage

8 dBV; f = 1 kHz

dBV

Line outputs (LINEL and LINER; pins 27 and 28)

output voltage

dBV

output resistance

200

275

THD

total harmonic distortion

0.01

0.1

output voltage

THD = 1%;
R

= 5 k

;

= 2.2 nF;

TUNL

3 dBV;

TUNR

3 dBV;

note 1

dBV

noise level

= 300 Hz to 20 kHz

dBV

channel balance

volume mute level

100

dBV

crosstalk between channels

one channel driven

dBV

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

res

frequency response with
respect to 1 kHz; low-pass
filter transfer

= 20 kHz

0.5

+0.5

= 60 kHz

maximum audio input crosstalk

8 dBV at a not

selected stereo audio
input

dBV

VU meter drive (DCOUTL and DCOUTR; pins 31 and 32); square root of output voltage (see Fig.8)

output voltage

1.6

1.8

2.0

output resistance

100

output voltage at maximum
record level

TUNL =

3 dBV;

TUNR =

3 dBV;

note 1

DDD

0.5

DDD

output voltage for zero-level
input

300

RF modulator drive output; mono MODOUT; pin 30 (see Fig.9)

output voltage

dBV

output resistance

100

THD

total harmonic distortion

0.04

output voltage at maximum
record level

TUNL =

3 dBV;

TUNR =

3 dBV;

note 1

dBV

THD

total harmonic distortion at
maximum record level

TUNL =

3 dBV;

TUNR =

3 dBV;

note 1

Linear output (LINOUT; pin 47); NSS = 0

output voltage

dBV

output resistance

200

THD

total harmonic distortion

0.01

noise level

= 300 Hz to 20 kHz

dBV

output voltage

THD = 1%;
R

= 10 k

;

TUNL

3 dBV;

TUNR

3 dBV;

NSS = 1; note 1

dBV

Headphone output (HPOUTL and HPOUTR; pins 22 and 23); headphone volume set to 0 dB

output voltage

dBV

output resistance

THD

total harmonic distortion

0.06

0.1

output voltage

THD = 1%;
TUNL

3 dBV;

TUNR

3 dBV;

= 250

; note 1

9.5

10.5

dBV

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

noise level

= 300 Hz to 20 kHz;

tuner AC
short-circuited

dBV

crosstalk between channels

one channel driven

dBV

mute

headphone volume mute level

dBV

channel balance

Audio outputs (AFOUTL and AFOUTR; pins 2 and 49); audio output from noise reduction

oAF

audio output voltage

11.5

dBV

THD

total harmonic distortion

0.15

0.3

oAF

audio output voltage at
maximum record level

TUNL =

3 dBV;

TUNR =

3 dBV;

note 1

3.5

0.5

dBV

THD

total harmonic distortion at
maximum record level

TUNL =

3 dBV;

TUNR =

3 dBV;

note 1

0.4

noise level

= 300 Hz to 20 kHz

dBV

channel balance

linearity

8 to

68 dBV

28.5

31.5

channel crosstalk

one channel driven

dBV

att

attack time according VHS

rec

recovery time according VHS

mute

mute level

MUTE = 1

dBV

frequency response with
respect to 1 kHz; output level

= 300 Hz

0.9

0.2

+0.5

= 10 kHz

2.9

3.9

4.9

FM modulator (audio input from AFINL and AFINR; pins 1 and 50)

THD

total harmonic distortion

f = 50 kHz

0.1

0.2

FM frequency deviation

iAF

11.5 dBV

kHz

max

maximum FM frequency
deviation

140

150

160

kHz

temperature coefficient

frequency adjust resistor

left channel

right channel

FM centre frequency right

NTSC = 1

1700

kHz

FM centre frequency left

NTSC = 1

1300

kHz

FM frequency deviation

NTSC = 1;
V

iAF

11.5 dBV

kHz

HF output stage (FMOUT; pin 56)

oR(p-p)

right output voltage
(peak-to-peak value)

= 1.8 MHz;

harmonic

455

510

572

oL(p-p)

left output voltage
(peak-to-peak value)

= 1.4 MHz;

harmonic

152

170

190

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Note

1. Record volume control for left and right channel set to maximum (+14 dB). Headphone volume control at 0 dB.

Playback mode
Audio output signal from the FM (de)modulator at AFOUTL and AFOUTR (pins 2 and 49).

ratio of output voltages

2.7

3.3

3rd

harmonic suppression

output resistance

100

130

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

PLL FM demodulator and limiter

AM rejection

iHF

= 1 to 100 mV;

m = 30%

dBV

i(rms)

sensitivity; PLL locked
(RMS value)

f = 150 kHz

0.6

i max(rms)

maximum signal level
(RMS value)

200

THD

total harmonic distortion

f = 50 kHz

0.03

0.3

f = 150 kHz

0.2

S/N

signal-to-noise ratio

iHF

= 30 mV;

f = 50 kHz 55

oAF

AF output voltage

f = 50 kHz

12.5

11.5

10.5

dBV

crosstalk between channels L to R; R to L

dBV

Sample-and-hold (see Fig.10)

hold pulse width

audio distortion

note 1

delay from HID pulse to
hold pulse

0.15

Mute timing (MUTE; pin 12)

i(rms)

mute activation level
(RMS value)

1.1

2.0

3.5

off

switch-off duration

signal to no signal

switch-on duration

no signal to signal

400

Level detector output ENVOUT; pin 11 (see Fig.11)

output voltage level

iHF(rms)

= 1 mV

1.5

iHF(rms)

= 10 mV

3.1

iHF(rms)

= 100 mV

4.5

output resistance

Line outputs (LINEL and LINER; pins 27 and 28); audio inputs at AFINL and AFINR (pins 1 and 50):

11.5 dBV

output voltage

dBV

noise level

= 300 Hz to 20 kHz

dBV

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

----------

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Note

1. The audio distortion is measured with the HID pulse frequency set to 1 kHz (500 Hz input at pin 51). FM signal:

= 10 kHz;

f = 50 kHz. The distortion is measured with a 3 kHz 4th-order low-pass filter. The measured value at

1 kHz HID-pulse frequency is corrected with 26 dB in order to calculate the equivalent distortion at 50 Hz HID-pulse
frequency.

THD

total harmonic distortion

0.06

0.2

linearity

iAF

11.5 to

41.5 dBV 57

channel balance

res

frequency response with
respect to 1 kHz; output
level

= 300 Hz

+0.4

+1.8

= 10 kHz

9.7

7.7

5.7

DC outputs (DCOUTL and DCOUTR; pins 31 and 32); square root of output voltage (see Fig.8)

output voltage for zero input
level

HSF = 1

300

HSF = 0

440

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1.5

11.5

31.5

41.5

21.5

MKA362

VoAF

(dBV)

V (dBV)

iAF

Fig.6

Compression curve of noise reduction at
1 kHz; record mode. The audio output
voltage at AFOUTL and AFOUTR
(pins 2 and 49) as a function of the
audio input voltage at TUNL and TUNR
(pins 9 and 10).

Fig.7

Expansion curve of noise reduction at
1 kHz; playback mode. The audio output
voltage at LINEL and LINER
(pins 27 and 28) as a function of the audio
input voltage at AFINL and AFINR
(pins 1 and 50).

1.5

11.5

31.5

41.5

21.5

MKA363

V iAF

(dBV)

V (dBV)

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Fig.8

VU meter output voltage at
DCOUTL and DCOUTR (pins 31 and 32)
as a function of audio signal level.

MKA364

V (dBV)

Vo
(V)

DCOUTL/R = 2.86 x audio level

Fig.9

Modulator output voltage at MODOUT
(pin 30) as a function of line output signal
level at LINEL and LINER (pins 27 and 28).

MKA365

V (dBV)

(dBV)

Fig.10 Sample-and-hold timing waveforms.

MKA366 - 1

time

track

hold

sample-and-

hold

CONTROL

HID

INPUT

MKA367

Vo
(V)

V (mV)

iHF

Fig.11 Level detector output voltage at ENVOUT

(pin 11) as a function of the limiter input
voltage level (RMS value) at FMINL (pin 61).

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

INTERNAL CIRCUITRY

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

AFINL

audio input for either
audio clipper (record) or noise
reduction (playback) of
left channel

AFOUTL

audio output from either
sample-and-hold (playback) or
noise reduction (record and
loop-through) of left channel

EXT2L

input selector for left channel

EXT1L

CINL

TUNL

MKA320 - 1

audio clipper

noise reduction

3.8 V

25 k

100

MKA321 - 1

noise
reduction

record

sample-and-hold

250

playback

MKA322 - 1

volume
control
left

3.8 V

130 k

3.8 V

130 k

3.8 V

130 k

3.8 V

130 k

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

RAF

overrule the I

C-bit RAF input

or record/playback switch
drive output for head amplifier
control

SSD

C-bus digital ground

SDA

C-bus data input

SCL

C-bus clock input

auxiliary switch; digital output
controlled by I

C-bit XS

DDA1

analog supply voltage (+12 V)

DDH

headphone supply voltage
(+12 V)

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

MKA326 - 1

275

100

RAF

I C-RAF

275

MKA327 - 1

275

MKA328 - 1

MKA329 - 1

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

ref

noise filtering of 3.8 V
reference voltage; external
capacitor required for filtering

SSA1

analog ground for LF circuits

DETR

attack/recovery timing right

RECTR

rectifier DC decoupling right

EMPHR

total emphasis right
(20 to 240

DCREFR

DC reference right

DCFBR

DC feedback right

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

MKA343 - 1

20 k

3.8 V

MKA344 - 1

384

16.4

695

695 k

1296

MKA345 - 1

MKA346 - 1

46.8 k

4.3 k

3.8 V

100 k

250

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

LINOUT

linear output

EXN1

EXN input (External Normal
Input); mono input selectable to
linear output

AFOUTR

audio output from either
sample-and-hold (playback) or
noise reduction (record and
loop-through) of right channel

AFINR

audio input for either
audio clipper (record) or noise
reduction (playback) of right
channel

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

MKA347 - 1

5.8 k

200

5.8 k

MKA348 - 1

65 k

3.8 V

MKA349 - 1

noise
reduction

record

sample-and-hold

250

playback

MKA350 - 1

audio clipper

noise reduction

3.8 V

25 k

100

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

HID

Head Identification pulse input
for sample-and-hold circuits

EXN2

EXN input (External Normal
Input); mono input selectable to
linear output

FADJR

frequency adjustment of right
channel oscillator by means of
a variable resistor

n.c.

not connected; preferably
connected to ground

FMINR

1.7 or 1.8 MHz input for limiter

FMOUT

FM output

DDA2

analog supply voltage (+5 V)

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

MKA351 - 1

2.5 V

3 k

MKA352 - 1

65 k

3.8 V

MKA353 - 1

CCO-current

MKA354 - 1

15
pF

15 pF

3.8 V

MKA355 - 1

900

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

i.c.

pin internally connected to
die pad; preferably connected
to ground

SSA2

analog ground for HF circuits

NTSC

digital output controlled by
I

C-bit NTSC

FMINL

1.3 or 1.4 MHz input for limiter

n.c.

not connected; preferably
connected to ground

n.c.

not connected; preferably
connected to ground

FADJL

frequency adjustment of left
channel oscillator by means of
a variable resistor

SYMBOL

PIN

EQUIVALENT CIRCUIT

DESCRIPTION

MKA356 - 1

MKA357 - 1

15
pF

15 pF

3.8 V

MKA358 - 1

CCO-current

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

TEST AND APPLICATION INFORMATION

handbook, full pagewidth

MRC084 - 1

AFINL

AFOUTL

EXT2L

EXT2R

EXT1L

EXT1R

CINL

CINR

TUNL

TUNR

ENVOUT

MUTE

RAF

SDA

SCL

V DDD

VSSD

VDDA1

220

(8x)

100

( 5 V)

100

( 12 V)

DDH

( 12 V)

SSH

HPOUTL

100

HPOUTR

100

RVAR

2.2 k

RFIX

100 k

i.c.

LINEL

100

LINER

100

MODAGC

3.3

MODOUT

100

DCOUTL

100

DCOUTR

LININ

n.c.

220

DCFBL

220

DCREFL

EMPHL

4.7

RECTL

DETL

2.2

DETR

RECTR

EMPHR

4.7

DCREFR

Vref

SSA1

220 nF

DCFBR

LINOUT

EXN1

220

AFOUTR

100

AFINR

4.7

HID

100 pF

HS DELAY

EXN2

220 nF

FADJR

22 k

15 k

f = 1.8 MHz

22 k

n.c.

FMINR

1.8 MHz

FMOUT

200

100

DDA2

( 5 V)

i.c.

SSA2

NTSC

n.c.

FMINL

n.c.

1.4 MHz

FADJL

39 k

f = 1.4 MHz

22 k

TDA9610H

4.7

Fig.12 Test circuit.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

ull pagewidth

MRC085 - 1

1.3 MHz

1.4 MHz

CCO

1.7 MHz

1.8 MHz

CCO

LPF

RAF

LIMITER

LEVEL

DETECT

NTSC

LOOP

FILTER

LOOP

FILTER

AUDIO

CLIPPER

AUDIO

CLIPPER

SAMPLE-

AND-

HOLD

SAMPLE-

AND-

HOLD

VL5 to VL0

VR5 to VR0

ISH and ISL

NSS, NSH

and NSL

I C

MUTE

ONE

SCHOT

SUPPLY AND V

ref

GAIN

ADJUST

AUDIO

LPF

IPAF + RAF

AUDIO

LPF

NOISE REDUCTION

VH4 to VH0

HSL and HSR

SAOL,

SAOR,

SAON

HSF

modulator

drive out

line out

DC out

SDA

RVAR

SCL

RAF

envelope

10 nF

HID

LIMITER

TDA9610H

linear output

linear input

100

headphone

out

100

120

100

3.3

15 k

22 k

1.8 MHz

4.7

220 nF

220

EXN2

EXN1

EXT2

EXT1

CIN

tuner

220

22 nF

100 k

4.7

220 nF

2.2

4.7

2.2

100

12 V

100

2.2 k

1 k

100

1.4 MHz

22 k

1.5

1.5 k

BPF

1.8 MHz

BPF

1.4 MHz

input

output

100

5 V

Fig.13 Application diagram.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

Adjustment of VCO frequency

Set the TDA9610H in record mode (NTSC off), no audio
input signal.

Measure the frequency at FMOUT (pin 56) with a
frequency counter and use the VCO TEST modes
(see Section "Function byte") to output only the channel of
interest.

Adjust the VCO frequencies to 1.4 MHz

10 kHz and

1.8 MHz

10 kHz by means of the potentiometers at

pin 64 (FADJL) and pin 53 (FADJR).

When NTSC is to be the main video standard, set
NTSC on and adjust to 1.3 MHz and 1.7 MHz for optimum
frequency accuracy.

Standard FM deviation and audio level

Reference levels of frequency deviation and audio output
level are set by the resistor value at pin 24 (RVAR);
simultaneous for left, right, playback and record. Typical
resistor values can be calculated with equation:

Where:

f = reference FM deviation.

A = reference audio output level (1 kHz audio
frequency).

If adjustment for overall tolerance is needed, R has to be
made adjustable for the range 0.7R

typ

to 1.4R

typ

Set the TDA9610H in playback. Use a HF test generator to
make a carrier of 1.4 MHz with the desired modulation and
input this signal at FMINL (pin 61) or before the band-pass
filter and measure the audio output level at LINEL (pin 27).

typ

50 kHz

------------------

400 mV (RMS)

---------------------------------------

----------------------------------------------

2.2 k

Power-down mode

To lower the dissipation in a stand-by situation, the 12 V
supply voltage at pin 19 (V

DDA1

) and pin 20 (V

DDH

) may be

switched off, with pins 19 and 20 `floating'. No low-ohmic
DC path to ground may be seen from pins 19 and 20,
because this will drain extra current from the 5 V supply via
these pins to ground.

Because of the fact that the I

C circuitry and the digital

outputs RAF, NTSC and XS are supplied via the 5 V
supply, no I

C settings will be lost and the output pins can

still be used.

For instance, XS can be used to drive external mute
transistors to mute the DC jump at the line outputs when
switching the 12 V supply.

RAF I/O

The status of the I

C RAF bit is output at pin 14

(RAF = HIGH; record). This output can be used to switch
the audio FM head amplifier to playback and record. If
accurate fast switching of the TDA9610H is needed, this
pin can also be used as input. Thereby overruling the I

RAF bit. To make this possible the RAF output is current
limited.

When using the RAF pin as output, no more than 35

(LOW) and 185

A (HIGH) current may be drawn from this

pin to assure the mode of the TDA9610H is not changed.

When using the RAF pin as input, the voltage source used
must be capable of delivering at least 345

A (forced

HIGH;

3.5 V) or sinking at least 65

A (forced

LOW;

1.5 V).

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

PACKAGE OUTLINE

UNIT

(1)

REFERENCES

OUTLINE

VERSION

EUROPEAN

PROJECTION

ISSUE DATE

IEC

JEDEC

EIAJ

0.25
0.05

2.90
2.65

0.25

0.50
0.35

0.25
0.14

14.1
13.9

18.2
17.6

1.4
1.2

1.2
0.8

7
0

0.2

0.1

0.2

1.95

DIMENSIONS (mm are the original dimensions)

Note

1. Plastic or metal protrusions of 0.25 mm maximum per side are not included.

1.0
0.6

SOT319-2

92-11-17
95-02-04

(1)

20.1
19.9

24.2
23.6

1.2
0.8

detail X

(A )

Z D

Z E

pin 1 index

10 mm

scale

QFP64: plastic quad flat package; 64 leads (lead length 1.95 mm); body 14 x 20 x 2.8 mm

SOT319-2

max.

3.20

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

SOLDERING

Plastic quad flat-packs

Y WAVE

During placement and before soldering, the component
must be fixed with a droplet of adhesive. After curing the
adhesive, the component can be soldered. The adhesive
can be applied by screen printing, pin transfer or syringe
dispensing.

Maximum permissible solder temperature is 260

C, and

maximum duration of package immersion in solder bath is
10 s, if allowed to cool to less than 150

C within 6 s.

Typical dwell time is 4 s at 250

A modified wave soldering technique is recommended
using two solder waves (dual-wave), in which a turbulent
wave with high upward pressure is followed by a smooth
laminar wave. Using a mildly-activated flux eliminates the
need for removal of corrosive residues in most
applications.

Y SOLDER PASTE REFLOW

Reflow soldering requires the solder paste (a suspension
of fine solder particles, flux and binding agent) to be

applied to the substrate by screen printing, stencilling or
pressure-syringe dispensing before device placement.

Several techniques exist for reflowing; for example,
thermal conduction by heated belt, infrared, and
vapour-phase reflow. Dwell times vary between 50 and
300 s according to method. Typical reflow temperatures
range from 215 to 250

Preheating is necessary to dry the paste and evaporate
the binding agent. Preheating duration: 45 min at 45

EPAIRING SOLDERED JOINTS

(

BY HAND

HELD SOLDERING

IRON OR PULSE

HEATED SOLDER TOOL

)

Fix the component by first soldering two, diagonally
opposite, end pins. Apply the heating tool to the flat part of
the pin only. Contact time must be limited to 10 s at up to
300

C. When using proper tools, all other pins can be

soldered in one operation within 2 to 5 s at between 270
and 320

C. (Pulse-heated soldering is not recommended

for SO packages.)

For pulse-heated solder tool (resistance) soldering of VSO
packages, solder is applied to the substrate by dipping or
by an extra thick tin/lead plating before package
placement.

1995 Mar 21

Philips Semiconductors

Product specification

Audio FM processor for VHS hi-fi audio

TDA9610H

DEFINITIONS

LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Philips customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.

PURCHASE OF PHILIPS I

C COMPONENTS

Data sheet status

Objective specification

This data sheet contains target or goal specifications for product development.

Preliminary specification

This data sheet contains preliminary data; supplementary data may be published later.

Product specification

This data sheet contains final product specifications.

Limiting values

Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or
more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation
of the device at these or at any other conditions above those given in the Characteristics sections of the specification
is not implied. Exposure to limiting values for extended periods may affect device reliability.

Application information

Where application information is given, it is advisory and does not form part of the specification.

Purchase of Philips I

C components conveys a license under the Philips' I

C patent to use the

components in the I

C system provided the system conforms to the I

C specification defined by

Philips. This specification can be ordered using the code 9398 393 40011.

Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: TDA9610

Document Outline

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: TDA9610