SGS Thomson Microelectronics ETC5067N, ETC5067FN, ETC5067D, ETC5064N, ETC5064FN Datasheet

ETC5064/64-X
ETC5067/67-X

November 1994

POWER AMP LIFIER

SERIALINTERFACECODEC/FILTERWITHRECEIVE

ORDERING NUMBERS:

ETC5064FN
ETC5064FN-X
ETC5067FN
ETC5067FN-X

.COMPLETE CODEC AND FILTERING SYS-

TEMINCLUDING:

-

Transmit high-passandlow-passfiltering.

-

Receivelow-passfilterwithsinx/x correction.

-

ActiveRCnoise filter.

-

µ-law or A-law compatibleCODER and DE­CODER.

-

Internalprecision voltage reference.

-

SerialI/O interface.

-

Internalauto-zerocircuitry.

-

Receivepush-pullpower amplifiers.

.µ-LAW ETC5064

.A-LAW ETC5067

.MEETSOREXCEEDS ALL D3/D4 ANDCCITT

SPECIFICATIONS.

.± 5 V OPERATION.

.LOWOPERATINGPOWER-TYPICALLY70mW

.POWER-DOWNSTANDBYMODE-TYPICALLY

3mW

.AUTOMATICPOWERDOWN

.TTL ORCMOSCOMPATIBLEDIGITALINTER-

FACES

.MAXIMIZES LINE INTERFACE CARD CIR-

CUIT DENSITY

.0°CTO70°C OPERATION:ETC5064/67

.–40°CTO85°C OPERATION:ETC5064-X/67-X

DESCRIPTION

TheETC5064(µ-law),ETC5067(A-law) are mono­lithicPCM CODEC/FILTERS utilizing the A/D and
D/AconversionarchitectureshownintheBlockDia­gramsand a serialPCM interface. Thedevices are
fabricatedusing double-polyCMOS process.

Similar to the ETC505Xfamily, these devicesfea­turean additionalReceive Power Amplifier to pro­videpush-pullbalancedoutputdrivecapability.The
receivegain can be adjustedby means of two ex­ternal resistorsfor an output level of up to ± 6.6 V
acrossa balanced600Ω load.

Also included is an Analog Loopback switch and
TS

X

output.

DIP20

(Plastic) N

PL CC2 0

FN

SO20

D

ORDERING NUMBERS:

ETC5064N
ETC5064N-X
ETC5067N
ETC5067N-X

ORDERING NUMBERS:

ETC5064D
ETC5064D-X
ETC5067D
ETC5067D-X

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BLOCK DIAGRAM (ETC5064 - ETC5064-X - ETC5067 - ETC5067-X)

PIN CONNECTIONS (Top views)

DIP 20 &

SO20

PLCC20

ETC5064 - ETC5064-X - ETC5067 - ETC5067-X

2/18

PIN DESCRIPTION

Name

Pin

Type (*)

N Description

VPO

+

O 1 The Non-inverting Output of the Receive Power Amplifier

GNDA GND 2 Analog Ground. All signals are referenced to this pin.

VPO

-

O 3 The Inverting Output of the Receive Power Amplifier

VPI I 4 Inverting Input to the Receive Power Amplifier. Also powers down both

amplifiers when connected to V

BB

.

VF

R

O O 5 Analog Output of the Receive Filter.

V

CC

S 6 Positive Power Supply Pin. VCC=+5V±5%

FS

R

I 7 Receive Frame Sync Pulse which enableBCLKRto shift PCM data into

D

R

.FSRis an 8KHz pulse train. See figures 1 and 2 for timing details.

D

R

I 8 Receive Data Input. PCM data is shifted into DRfollowing the FSRleading

edge

BCLK

R

/CLKSEL I 9 The bit Clock which shifts data into DRafter the FSRleading edge. May

vary from 64KHz to 2.048MHz.
Alternatively, may be a logic input which selectseither 1.536MHz/1.544MHz
or 2.048MHz for master clock in synchronous mode and BCLK

X

is used
for both transmit and receive directions (see table 1). This input has an
internal pull-up.

MCKL

R

/PDN I 10 Receive Master Clock. Must be 1.536MHz, 1.544MHz or 2.048MHz. May

be asynchronous with MCLK

X

, but should be synchronous with MCLKXfor

best performance. When MCLK

R

is connected continuously low, MCLKXis

selected for all internal timing. When MCLK

R

is connected continuously

high, the device is powered down.

MCLK

X

I 11 Transmit Master Clock. Must be 1.536MHz, 1.544MHz or 2.048MHz. May

be asynchronous with MCLK

R

.

BCLK

X

I 12 The bit clock which shifts out the PCM data on DX. May vary from 64KHz

to 2.048MHz, but must be synchronous with MCLK

X

.

D

X

O 13 The TRI-STATEPCM data output which is enabled by FSX.

FS

X

I 14 Transmit frame sync pulse input whichenables BCLKXto shift out the

PCM data on D

X

.FSXis an 8KHz pulse train. See figures 1 and 2 for

timing details.

TS

X

O 15 Open drain output which pulses low during the encoder time slot. Must to

be grounded if not used.

ANLB I 16 Analog Loopback Control Input. Must be set to logic ’0’ for normal

operation. When pulled to logic ’1’, the transmit filter input is disconnected
from the output of the transmit preamplifier and connected to the VPO

+

output of the receive power amplifier.

GS

X

O 17 Analog output of the transmit input amplifier. Used to set gain externally.

VF

X

I

-

I 18 Inverting input of the transmit input amplifier.

VF

X

I

+

I 19 Non-inverting input of the transmit input amplifier.

V

BB

S 20 Negative Power Supply Pin. VBB= -5V ±5%

(*) I: Input, O: Output, S: Power Supply.
TRI-STATE is a trademark of National Semiconductor Corp.

ETC5064 - ETC5064-X - ETC5067 - ETC5067-X

3/18

FUNCTIO NAL DE SCRIPTION

POWER-UP
Whenpowerisfirstapplied,power-onresetcircuitry

initializes the device and places it into the power­down mode. All non-essential circuits are deacti­vatedand the D

X

andVFRO outputsare put in high
impedancestates.Topower-upthedevice,alogical
low level or clock must be applied to the
MCLK

R

/PDN pin andFSXand/orFSRpulsesmust
bepresent.Thus2 power-downcontrolmodesare
available.The first is to pull the MCLK

R

/PDN pin

high;the alternativeis toholdboth FS

X

andFSRin­puts continuouslylow. The device will power-down
approximately 2 ms after the last FS

X

pulse. The

TRI-STATEPCMdataoutput, D

X

, willremainin the

highimpedancestate untilthe secondFS

X

pulse.

SYNCHRONOUSOPERATION
For synchronousoperation,the same masterclock

and bit clock shouldbe used for boththe transmit
andreceivedirections.In thismode,a clockmustbe
appliedto MCLK

X

andthe MCLKR/PDNpin can be
used as a power-down control. A low level on
MCLK

R

/PDNpowersup thedevice anda high level
powersdownthedevice.In eithercase,MCLKXwill
beselectedasthemasterclockforboththetransmit
andreceivecircuits.A bitclockmustalsobeapplied
toBCLK

X

andtheBCLR/CLKSELcanbe usedtose-

lect theproper internal dividerfor a master clock of

1.536 MHz, 1.544 MHz or 2.048 MHz. For 1.544
MHz operation, the device automaticallycompen­satesfor the 193 rd clock pulse each frame.

Withafixedlevel onthe BCLK

R

/CKSELpin,BCLK

X

willbe selectedasthe bit clock for boththe transmit
and receivedirections. Table 1 indicates the fre­quenciesof operation which can be selected, de­pendingonthestateofBCLK

R

/CLKSEL.Inthissyn-

chronousmode, the bit clock,BCLK

X

, may be from
64kHzto2.048MHz,butmustbesynchronouswith
MCLK

X

.

EachFS

X

pulsebegins the encodingcycle and the
PCM dat a from theprevious encodecycle isshiftout
of the enabled D

X

output on the positive edge of

BCLK

X

. After8 bit clock periods, the TRISTATED

X

outputis returnedto a high impedancestate.With an
FS

R

pulse, PCMdata is latched via the DRinputon

thenegat i veedgeofBCLK

X

(or on BCKLRifrunning).

FS

X

andFSRmustbe sy nc hronouswit hMCLKX/R.

ASYNCHRONOUSOPERATION
Forasynchronousoperation,separatetransmitand

receiveclocksmaybe applied.MCLK

X

andMCLK

R

mustbe2.048MHzforthe ETC5067or1.536MHz,

1.544MHz for the ETC5064, andneed not be syn­chronous.Forbesttransmissionperformance,how­ever,MCLK

R

shouldbe synchronouswithMCLKX,
which iseasilyachievedby applyingonlystaticlogic
levelstotheMCLK

R

/PDNpin.Thiswillautomatically

connectMCLK

X

toallinternalMCLKRfunctions(see
pin description). For 1.544MHz operation,the de­viceautomaticallycompensatesforthe 193rdclock
pulse each frame. FS

X

startseach encodingcycle

andmust besynchronouswith MCLK

X

andBCLKX.

FS

R

starts each decodingcycle and must be syn-

chronouswithBCLK

R

.BCLKRmust bea clock, the
logiclevels shown in Table 1 are not validin asyn­chronous mode. BCLK

X

and BCLKRmay operate

from 64kHzto 2.048 MHz.
SHORTFRAME SYNCOPERATION

The device can utilize either a short frame sync
pulseoralongframesyncpulse.Uponpowerinitiali­zation,the deviceassumes a shortframemode. In
this mode,both frame sync pulses. FS

X

and FSR,
mustbe one bit clock periodlong, with timing rela­tionshipsspecifiedin figure 2. With FS

X

highduring

a falling edge of BCLK

R

, the next rising edge of

BCLK

X

enablesthe DXTRI-STATE output buffer,
whichwilloutputthesignbit.Thefollowingsevenris­ing edgesclock out the remaining seven bits, and
the next falling edge disables the D

X

output. With

FS

R

highduringa falling edge ofBCLKR(BCLKXin

synchronousmode), thenextfallingedgeofBCLK

R

latches in the sign bit. The following seven falling
edges latch in the seven remaining bits. Both de­vicesmay utilizethe shortframe sync pulsein syn­chronousor asynchronousoperatingmode.

LONGFRAMESYNC OPERATION
To use the long frame mode, both the frame sync

pulses,FS

X

andFSR,mustbethreeormorebitclock
periods long, with timing relationships specified in
figure3. Basedonthe transmitframesyncFS

X

,the

devicewill sensewhether short or longframe sync

Table1: Selectionof MasterClock Frequencies.

BCLKR/CLKSEL

Master Clock

Frequency Selected

ETC5067

ETC5067-X

ETC5064

ETC5064-X

Clocked 2.048MHz 1.536MHz or

1.544MHz

0 1.536MHz or

1.544MHz

2.048MHz

1 (or open circuit) 2.048MHz 1.536MHz or

1.544MHz

ETC5064 - ETC5064-X - ETC5067 - ETC5067-X

4/18

pulses are being used. For 64 kHz operation, the
framesync pulsesmust be kept low fora minimum
of 160 ns (see Fig 1). The D

X

TRI-STATE output

bufferis enabledwiththe risingedge of FS

X

or the

rising edgeof BCLK

X

, whichever comes later, and
the first bitclocked out is the sign bit. The following
sevenBCLK

X

risingedgesclockout the remaining

sevenbits. The D

X

outputis disabled by thefalling

BCLK

X

edge following the eighth risingedge,or by

FS

X

goinglow,whichevercomeslater.Arisingedge

onthereceiveframesyncpulse,FS

R

, will cause the

PCM data at D

R

to be latched in on the next eight

falling edges of BCLK

R

(BCLKxin synchronous
mode).Bothdevicesmay utilizethelongframesync
pulsein synchronousor asynchronousmode.

TRANSMITSECTION
Thetransmitsectioninputisanoperationalamplifier

withprovisionforgainadjustmentusingtwoexternal
resistors,seefigure4.Thelownoiseandwideband­width allow gains in excess of 20 dB across the
audiopassband to be realized.The op amp drives
a unity gain filter consisting of RC active pre-filter,
followed by an eighth order switched-capacitor
bandpassfilterdirectlydrives the encodersample­and-holdcircuit. TheA/D is of compandingtypeac­cordingto A-law(ETC5067and ETC5067-X)or µ­law (ETC5064 and ETC5064-X) coding conven­tions. A precision voltage reference is trimmed in
manufacturingto providean inputover load (t

MAX

)
of nominally2.5V peak (see table of Transmission
Characteristics).The FS

X

framesyncpulsecontrols
thesamplingofthefileroutput,andthenthesucces­sive-approximationencodingcyclebegins.The8-bit
code is then loaded into a buffer and shifted out
throughD

X

atthenextFSXpulse.thetotal encoding
delaywillbe approximately165µs (dueto thetrans­mitfilter)plus125µs(due toencodingdelay),which
totals290µs.Any offsetvoltagedue to thefiltersor
comparator iscancelledby signbit integration.

RECEIVESECTION
The receive section consistof an expandingDAC

which drives a fifth order switched-capacitor low
passfilter clocked at256kHz. Thedecoderis A-law
(ETC5067 and ETC5067-X) or µ–law (ETC5064
and ETC5064-X)and the 5 th orderlow passfilter
corrects for the sin x/xattenuationdue tothe 8kHz
sampleand hold. The filter is then followedby a 2
nd order RC active post-filter and power amplifier
capableofdriving a600Ω loadtoa levelof 7.2dBm.
The receive section is unity-gain. Upon the oc­curenceof FS

R

, the data at theDRinputis clocked

in on the falling edge of the next eight BCLK

R

(BCKLX)periods.Attheendofthedecodertimeslot,
the decoding cycle begins,and 10µs later the de­coderDACoutputis updated.Thetotaldecoder de­lay is about10µs (decoderup-date)plus 110µs (fil-
ter delay) plus 62.5µs (1/2 frame),which givesap­proximately180µs.

RECEIVEPOWER AMPLIFIERS
Two invertingmode power amplifiersareprovided

for directly driving a matched line interface trans­former.The gain of thefirst power amplifier can be
adjustedtoboostthe± 2.5Vpeakoutputsignalfrom
thereceivefilterup± 3.3Vpeakintoanunbalanced
300Ωload,or±4.0Vintoan unbalanced15kΩ load.
Thesecondpower amplifier isinternally connected
in unity-gain inverting mode to give 6dB of signal
gainforbalancedloads.Maximumpowertransferto
a 600Ω subscriber line termination is obtained by
differientiallydrivinga balancedtransformerwitha

√2 : 1 turns ratio,as shown in figure4.A totalpeak

powerof15.6dBmcan bedeliveredto theloadplus
termination.Both power amplifier can be powered
downindependentlyfromthePDNinputbyconnect­ing the VPI input to V

BB

saving approximately 12

mW of power.

ABSOLUTEMAXIMUM RATINGS

Symbol Parameter Value Unit

V

CC

VCCto GNDA 7 V

V

BB

VBBto GNDA -7 V

V

IN,VOUT

Voltage at any Analog Input or Output VCC+0.3to VBB-0.3 V
Voltage at any Digital Input or Output V

CC

+0.3to GNDA -0.3 V

T

oper

Operating Temperature Range: ETC5064/67

ETC5064-X/67-X

-25 to +125

-40 to +125

°C
°C

T

stg

Storage Temperature Range -65 to +150 °C
Lead Temperature (soldering, 10 seconds) 300 °C

ETC5064 - ETC5064-X - ETC5067 - ETC5067-X

5/18

ELECTRICALOPERATING CHARACTERISTICS

V

CC

=5.0V±5%,VBB=-5V±5%,GNDA=0V,TA=0°Cto70°C (ETC5064-X/67-X:TA=–40°Cto85°),unless

otherwisenoted;typicalcharacteristicsspecifiedat V

CC

=5.0V, VBB=-5.0V,TA=25°C; allsignals arerefer-
encedto GNDA.
DIGITAL INTERFACE (All devices)

Symbol Parameter Min. Typ. Max. Unit

V

IL

Input Low Voltage 0.6 V

V

IH

Input High Voltage 2.2 V

V

OL

Output Low Voltage
I

L

= 3.2 mA D

X

IL= 3.2 mA, Open Drain TS

X

0.4

0.4

V
V

V

OH

Output High Voltage
IH = 3.2 mA D

X

2.4 V

I

IL

Input Low Current (GNDA ≤ VIN≤ VIL)all digital inputs
Except BCLK

R

–10 10 µA

I

IH

Input High Current (VIH≤ VIN≤ VCC) Except ANLB – 10 10 µA

I

OZ

Output Currentin High Impedance State (TRI-STATE)
(GNDA ≤ V

O

≤ VCC)D

X

–10 10 µA

ANALOG INTERFACE WITH TRANSMITINPUT AMPLIFIER (all devices)

Symbol Parameter Min. Typ. Max. Unit

I

I

XA Input Leakage Current VFxI+or VFxI

–

(– 2.5 V ≤ V ≤ + 2.5 V)

– 200 200 nA

R

I

XA Input Resistance VFXI+or VFXI

–

(– 2.5 V ≤ V ≤ + 2.5 V)

10 MΩ

R

O

XA Output Resistance (closed loop, unity gain) 1 3 Ω

R

L

XA Load Resistance GS

X

10 kΩ

C

L

XA Load Capacitance GS

X

50 pF

V

O

XA Output Dynamic Range (RL≥ 10 kΩ)GS

X

– 2.8 +2.8 V

A

V

XA Voltage Gain (VFXI+to GSX) 5000 V/V

F

U

XA Unity Gain Bandwidth 1 2 MHz

V

OS

XA Offset Voltage – 20 20 mV

V

CM

XA Common-mode Voltage – 2.5 2.5 V

CMRRXA Common-mode Rejection Ratio 60 dB

PSRRXA Power Supply Rejection Ratio 60 dB

ANALOG INTERFACE WITH RECEIVE FILTER (all devices)

Symbol Parameter Min. Typ. Max. Unit

R

O

RF Output Resistance VFRO13Ω

R

L

RF Load Resistance (VFRO=±2.5 V) 10 kΩ

C

L

RF Load Capacitance 25 pF

VOS

R

O Output DC Offset Voltage – 200 200 mV

ETC5064 - ETC5064-X - ETC5067 - ETC5067-X

6/18