MSM7578HMS-K [OKI]

Single Rail CODEC; 单铁CODEC


型号：	MSM7578HMS-K
厂家：	OKI ELECTRONIC COMPONETS
描述：	Single Rail CODEC 单铁CODEC
文件：	总18页 (文件大小：159K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

E2U0017-28-81

This version: Aug. 1998

Previous version: Nov. 1996

¡ Semiconductor

MSM7578H/7578V/7579

¡ Semiconductor

MSM7578H/7578V/7579

Single Rail CODEC

GENERAL DESCRIPTION

The MSM7578 and MSM7579 are single-channel CODEC CMOS ICs for voice signals ranging

from 300 to 3400 Hz. These devices contain filters for A/D and D/A conversion.

Designed especially for a single-power supply and low-power applications, these devices are

particularly optimized for telephone terminals in digital wireless systems and ISDN systems.

The devices use the same transmission clocks as those used in the MSM7508B and MSM7509B.

The analog output signal can directly drive a piezoelectric type handset receiver.

FEATURES

• Single power supply: +5.0 V ±5%

• Low power consumption

Operating mode:

Power down mode:

• ITU-T Companding law

25 mW Typ. 47 mW Max.

0.05 mW Typ. 0.3 mW Max.

= 5 V

MSM7578H:

MSM7579:

m-law

A-law

MSM7578V:

m/A-law pin-selectable

• Built-in PLL eliminates a master clock

• Serial data rate: 64/128/256/512/1024/2048 kHz

96/192/384/768/1536/1544/200 kHz

• Adjustable transmit gain

• Built-in reference voltage supply

• Directly drive a line transformer of 600 W

• The16-pinDIPand24-pinSOPpackageproductsprovidepincompatibilitywiththeMSM7508B/

7509B

• The 20-pin SSOP package products have 1/3 the foot print of conventional products

• Package options:

16-pin plastic DIP (DIP16-P-300-2.54)

(Product name : MSM7578HRS)

(Product name : MSM7579RS)

(Product name : MSM7578VRS)

(Product name : MSM7578HGS-K)

(Product name : MSM7578VGS-K)

(Product name : MSM7579GS-K)

24-pin plastic SOP (SOP24-P-430-1.27-K)

20-pin plastic SSOP (SSOP20-P-250-0.95-K) (Product name : MSM7578HMS-K)

(Product name : MSM7579MS-K)

(Product name : MSM7578VMS-K)

1/18

¡ Semiconductor

MSM7578H/7578V/7579

BLOCK DIAGRAM

PCMOUT

–

AIN–

AIN+

8th

TCONT

PLL

LPF

BPF

CONV.

GSX

XSYNC

BCLK

AUTO

ZERO

SGC

GEN

RTIM

RSYNC

(ALAW)

5th

LPF

CONV.

–

RCONT

AOUT

PCMIN

PDN

PWD

Logic

PWD

V_DD

2/18

¡ Semiconductor

MSM7578H/7578V/7579

PIN CONFIGURATION (TOP VIEW)

SGC

16 AIN+

15 AIN–

14 GSX

SGC

24 AIN+

23 AIN–

22 NC

SGC

20 AIN+

19 AIN–

18 GSX

AOUT

13 (ALAW)*

12 AG

21 GSX

20 NC

(ALAW)*

PDN

AOUT

16 NC

15 NC

14 AG

11 BCLK

10 XSYNC

19 (ALAW)*

18 AG

RSYNC

PCMIN

BCLK

PCMOUT

17 NC

PDN

16 BCLK

15 NC

RSYNC

12 XSYNC

11 PCMOUT

16-Pin Plastic DIP

PDN 10

RSYNC 11

PCMIN 12

PCMIN 10

14 XSYNC

13 PCMOUT

NC : No connect pin

20-Pin Plastic SSOP

NC : No connect pin

24-Pin Plastic SOP

* The ALAW pin is only applied to the MSM7578VRS/MSM7578VGS-K/MSM7578VMS-K.

3/18

¡ Semiconductor

MSM7578H/7578V/7579

PIN AND FUNCTIONAL DESCRIPTIONS

AIN+, AIN–, GSX

Transmit analog input and transmit level adjustment.

AIN+ is a non-inverting input to the op-amp; AIN– is an inverting input to the op-amp; GSX is

connected to the output of the op-amp and is used to adjust the level, as shown below.

When not using AIN– and AIN+, connect AIN– to GSX and AIN+ to SG. During power saving

and power down modes, the GSX output is at AG voltage.

1) Inverting input type

R1 : variable

R2 > 20 kW

C1 > 1/(2 ¥ 3.14 ¥ 30 ¥ R1)

GSX

AIN–

AIN+

–

Analog input

Gain = R2/R1 £ 10

2) Non inverting input type

R3 > 20 kW

AIN+

AIN–

GSX

–

Analog input

R4 > 20 kW

R5 > 50 kW

C2 > 1/ (2 ¥ 3.14 ¥ 30 ¥ R5)

Gain = 1 + R4 / R3 £ 10

Analog signal ground.

AOUT

Analog output.

The output signal has a maximum amplitude of 2.4 V above and below the signal ground

voltage (V /2).

The output load resistance is a minimum of 600 W.

During power saving, or power down mode, the output of AOUT is at the voltage level of the

signal ground.

4/18

¡ Semiconductor

MSM7578H/7578V/7579

Power supply for +5 V.

PCMIN

PCM signal input.

A serial PCM signal input to this pin is converted to an analog signal in synchronization with the

RSYNC signal and BCLK signal.

The data rate of the PCM signal is equal to the frequency of the BCLK signal.

ThePCMsignalisshiftedatafallingedgeoftheBCLKsignalandlatchedintotheinternalregister

when shifted by eight bits.

The start of the PCM data (MSD) is identified at the rising edge of RSYNC.

BCLK

Shift clock signal input for the PCMIN and PCMOUT signal.

The frequency, equal to the data rate, is 64, 96, 128, 192, 256, 384, 512, 768, 1024, 1536, 1544, 2048,

or 200 kHz. Setting this signal to logic “1” or “0” drives both transmit and receive circuits to the

power saving state.

RSYNC

Receive synchronizing signal input.

Eight required bits are selected from serial PCM signals on the PCMIN pin by the receive

synchronizing signal.

Signals in the receive section are synchronized by this synchronizing signal. This signal must be

synchronized in phase with the BCLK. The frequency should be 8 kHz ±50 ppm to guarantee the

AC characteristics which are mainly the frequency characteristics of the receive section.

However, if the frequency characteristic of an applied system is not specified exactly, this device

can operate in the range of 8 kHz ±2 kHz, but the electrical characteristics in this specification are

not guaranteed.

XSYNC

Transmit synchronizing signal input.

The PCM output signal from the PCMOUT pin is output in synchronization with this transmit

synchronizing signal. This synchronizing signal triggers the PLL and synchronizes all timing

signals of the transmit section.

This synchronizing signal must be synchronized in phase with BCLK.

The frequency should be 8 kHz ±50 ppm to guarantee the AC characteristics which are mainly

the frequency characteristics of the transmit section.

However, if the frequency characteristic of an applied system is not specified exactly, this device

can operate in the range of 8 kHz ±2 kHz, but the electrical characteristics in this specification are

not guaranteed.

Settingthissignaltologic“1”or“0”drivesbothtransmitandreceivecircuitstothepowersaving

state.

5/18

¡ Semiconductor

MSM7578H/7578V/7579

Ground for the digital signal circuits.

This ground is separate from the analog signal ground. The DG pin must be connected to the AG

pin on the printed circuit board to make a common analog ground.

PDN

Power down control signal.

A logic "0" level drives both transmit and receive circuits to a power down state.

PCMOUT

PCM signal output.

The PCM output signal is output from MSD in a sequential order, synchronizing with the rising

edge of the BCLK signal.

MSD may be output at the rising edge of the XSYNC signal, based on the timing between BCLK

and XSYNC.

This pin is in a high impedance state except during 8-bit PCM output. It is also in a high

impedance state during power saving or power down mode.

Apull-upresistormustbeconnectedtothispinbecauseitsoutputisconfiguredasanopendrain.

This device is compatible with the ITU-T recommendation on coding law and output coding

format.

The MSM7579 (A-law) outputs the character signal, inverting the even bits.

PCMIN/PCMOUT

Input/Output Level

MSM7578H (m-law)

MSM7579 (A-law)

MSD

+Full scale

–0

–Full scale

6/18

¡ Semiconductor

MSM7578H/7578V/7579

Signal ground voltage output.

The output voltage is 1/2 of the power supply voltage.

The output drive current capability is ±300 mA.

This pin provides the SG level for CODEC peripherals.

This output voltage level is undefined during power saving or power down mode.

SGC

Used to generate the signal ground voltage level by connecting a bypass capacitor.

Connect a 0.1 mF capacitor with excellent high frequency characteristics between the AG pin and

the SGC pin.

ALAW

Control signal input of the companding law selection.

Provides only for the MSM7578VRS/7578VGS-K/7578VMS-K. The CODEC will operate in the

m-law when this pin is at a logic "0" level and the CODEC will operate in the A-law when this pin

is at a logic "1" level. The CODEC operates in the m-law if the pin is left open, since the pin is

internally pulled down.

7/18

¡ Semiconductor

MSM7578H/7578V/7579

ABSOLUTE MAXIMUM RATINGS

Parameter

Power Supply Voltage

Analog Input Voltage

Digital Input Voltage

Storage Temperature

Symbol

V_DD

Condition

Rating

0 to 7

Unit

—

V_AIN

–0.3 to V_DD+ 0.3

–55 to +150

V_DIN

T_STG

°C

RECOMMENDED OPERATING CONDITIONS

Parameter

Power Supply Voltage

Operating Temperature

Analog Input Voltage

Symbol

V_DDVoltage must be fixed

Condition

Min.

Typ.

Max.

Unit

4.75

–30

—

5.25

+85

2.4

—

+25

—

°C

V_AINConnect AIN– and GSX

V_PP

Input High Voltage

Input Low Voltage

V_IH

2.2

—

V_DD

0.8

XSYNC, RSYNC, BCLK,

PCMIN, PDN, ALAW

V_IL

64, 128, 256, 512, 1024,

2048, 96, 192, 384, 768,

1536, 1544, 200

Clock Frequency

F_C

BCLK

kHz

Sync Pulse Frequency

Clock Duty Ratio

F_S

D_C

t_Ir

XSYNC, RSYNC

6.0

8.0

—

9.0

kHz

BCLK

Digital Input Rise Time

Digital Input Fall Time

XSYNC, RSYNC, BCLK,

PCMIN, PDN, ALAW

—

t_If

—

t_XS

t_SX

t_RS

t_SR

BCLKÆXSYNC, See Timing Diagram

XSYNCÆBCLK, See Timing Diagram

BCLKÆRSYNC, See Timing Diagram

RSYNCÆBCLK, See Timing Diagram

100

1 BCLK

100

0.5

—

Transmit Sync Pulse Setting Time

Receive Sync Pulse Setting Time

—

Sync Pulse Width

PCMIN Set-up Time

PCMIN Hold Time

t_WSXSYNC, RSYNC

100

—

t_DS

t_DH

—

R_DLPull-up resistor

—

Digital Output Load

C_DL

V_off

—

100

+100

+10

Transmit gain stage, Gain= 1

Transmit gain stage, Gain = 10

XSYNC, RSYNC, BCLK

–100

–10

—

Analog Input Allowable DC Offset

Allowable Jitter Width

8/18

¡ Semiconductor

MSM7578H/7578V/7579

ELECTRICAL CHARACTERISTICS

DC and Digital Interface Characteristics

(V_DD= +5 V 5%, Ta = –30°C to +85°C)

Parameter

Symbol

Condition

Min.

—

Typ.

Max.

Unit

I_DD1Operating mode, No signal

I_DD2Power-down mode, PDN = 0

—

0.01

0.05

Power Supply Current

Power-save mode, PDN = 1,

I_DD3

—

1.2

3.0

XSYNC Æ OFF

Input High Voltage

V_IH

V_IL

I_IH

I_IL

—

2.2

0.0

—

0.0

—

0.2

—

V_DD

0.8

2.0

0.5

0.4

Input Low Voltage

High Level Input Leakage Current

Low Level Input Leakage Current

Digital Output Low Voltage

Digital Output Leakage Current

Input Capacitance

V_OLPull-up resistance > 500 W

I_O

—

C_IN

—

Analog Input Resistance

R_INAIN+, AIN–

—

Transmit Analog Interface Characteristics

(V_DD= +5 V to 5%, Ta = –30°C to +85°C)

Parameter

Input Resistance

Symbol

Condition

Min.

Typ.

—

Max.

—

Unit

R_INXAIN+, AIN–

Output Load Resistance

Output Load Capacitance

Output Amplitude

R_LGXGSX with respect to SG

—

C_LGX

V_OGX

—

–1.2

–20

—

+1.2

+20

Offset Voltage

V_OSGX

Gain = 1

—

Receive Analog Interface Characteristics

(V_DD= +5 V to 5%, Ta = –30°C to +85°C)

Parameter

Output Load Resistance

Output Load Capacitance

Output Amplitude

Symbol

Condition

Min.

0.6

Typ.

—

Max.

—

Unit

R_LAOAOUT with respect to SG

C_LAOAOUT with respect to SG

V_OAOAOUT with respect to SG

V_OSAOAOUT with respect to SG

—

–1.2

–100

—

+1.2

+100

Offset Voltage

—

9/18

¡ Semiconductor

AC Characteristics

Parameter

MSM7578H/7578V/7579

(V_DD= +5 V 5%, Ta = –30°C to +85°C)

Freq.

(Hz)

Level

(dBm0)

Symbol

Condition Min.

Typ.

Max.

Unit

Loss T1

Loss T2

Loss T3

Loss T4

Loss T5

Loss T6

Loss R1

Loss R2

Loss R3

Loss R4

Loss R5

SD T1

SD T2

SD T3

300

+0.07

Reference

–0.04

+0.06

0.4

—

–0.15

+0.20

1020

2020

3000

3400

300

Transmit Frequency Response

Receive Frequency Response

–0.15

+0.20

0.80

–0.15

–0.03

Reference

–0.02

+0.15

0.4

+0.20

1020

2020

3000

3400

–0.15

0.0

+0.20

0.80

—

–30

—

Transmit Signal to Distortion Ratio

1020

SD T4

SD T5

–40

–45

—

SD R1

SD R2

SD R3

—

–30

Receive Signal to Distortion Ratio

1020

33.5

SD R4

SD R5

–40

–45

—

GT T1

GT T2

GT T3

GT T4

GT T5

GT R1

GT R2

GT R3

GT R4

GT R5

–0.3

+0.01

Reference

+0.3

–10

–40

–50

–55

Transmit Gain Tracking

1020

–0.3

–0.6

–1.2

–0.3

+0.3

+0.6

+1.2

+0.3

–0.13

–0.15

–10

–40

–50

–55

Reference

+0.10

+0.20

+0.25

Receive Gain Tracking

–0.3

–0.6

–1.2

+0.3

+0.6

+1.2

*1 Psophometric filter is used

*2 Upper is specified for the MSM7578H, lower for the MSM7579

10/18

¡ Semiconductor

MSM7578H/7578V/7579

AC Characteristics (Continued)

(V_DD= +5 V 5%, Ta = –30°C to +85°C)

Freq.

(Hz)

Level

(dBm0)

Parameter

Symbol

Condition Min.

Typ.

Max.

Unit

AIN = SG

—

–72.5

–70.5

–78

–70

–68

–75

Nidle T

—

Idle Channel Noise

*1 *2

dBmOp

NidleR

AV T

*1 *3

V_DD= 5.0 V

Ta = 25°C

—

0.5803 0.6007 0.6218

Absolute Level (Initial Difference)

Vrms

AV R

AV Tt

1020

V_DD= +5 V

–0.2

—

+0.2

Absolute Level

(Deviation of Temperature and Power)

Ta = –30

to 85°C

A to A

BCLK

AV Rt

Absolute Delay

—

0.60

= 64 kHz

tgd T1

tgd T2

tgd T3

tgd T4

tgd T5

tgdR1

tgdR2

tgdR3

tgdR4

tgdR5

CR T

500

600

—

0.19

0.11

0.02

0.05

0.07

0.00

0.09

0.12

0.75

0.35

0.125

0.75

0.35

0.125

0.75

—

Transmit Group Delay

1000

2600

2800

500

600

Receive Group Delay

1000

2600

2800

TRANS Æ RECV

RECV Æ TRANS

Crosstalk Attenuation

1020

CR R

—

*1 Psophometric filter is used

*2 Upper is specified for the MSM7578H, lower for the MSM7579

*3 MSM7578H: All "1", MSM7579: "11010101"

*4 Minimum value of the group delay distortion

11/18

¡ Semiconductor

MSM7578H/7578V/7579

AC Characteristics (Continued)

(V_DD= +5 V 5%, Ta = –30°C to +85°C)

Freq.

(Hz)

4.6 kHz to

72 kHz

300 to

3400

Level

(dBm0)

Parameter

Discrimination

Symbol

Condition Min.

Typ.

Max.

—

Unit

0 to

DIS

4000 Hz

4.6 kHz to

—

Out-of-band Spurious

–37.5

–52

–35

—

dBmO

100 kHz

fa = 470

fb = 320

0 to

Intermodulation Distortion

Power Supply Noise Rejection Ratio

IMD

–4

2fa – fb

—

PSR T

50 mV_PP

PSR R 50 kHz

—

200

XD1

XD2

XD3

Digital Output Delay Time

C_L= 100 pF

*5 The measurement under idle channel noise

12/18

¡ Semiconductor

MSM7578H/7578V/7579

TIMING DIAGRAM

PCM Data Input/Output Timing

Transmit Timing

BCLK

XSYNC

t_XS

t_SX

t_WS

t_XD1

t_SD

MSD

t_XD2

t_XD3

PCMOUT

When t_XS£ 1/2 • Fc, the Delay of the MSD bit is defined as t_XD1

When t_SX£ 1/2 • Fc, the Delay of the MSD bit is defined as t_SD

Receive Timing

BCLK

t_RS

t_SR

t_WS

RSYNC

PCMIN

t_DS

t_DH

MSD

13/18

¡ Semiconductor

MSM7578H/7578V/7579

APPLICATION CIRCUIT

Analog interface

Digital interface

1 kW

MSM7578H/7579

5 V

Analog input

AIN–

GSX

PCMOUT

PCM signal output

AOUT

PCMIN

BCLK

Analog output

PCM data input

AIN+

PCM Shift Clock input

0.1 mF

XSYNC

RSYNC

PDN

8 kHz SYNC signal input

Power Down control input

SGC

0 V

₊^–10 mF 1 mF

"1" = Operation

"0" = Power down

+5 V

V_DD

0 to 10 W

The analog output signal has an amplitude of ±1.2 V above and below the offset voltage level of

/2.

14/18

¡ Semiconductor

MSM7578H/7578V/7579

RECOMMENDATIONS FOR ACTUAL DESIGN

• Toassureproperelectricalcharacteristics,usebypasscapacitorswithexcellenthighfrequency

characteristics for the power supply and keep them as close as possible to the device pins.

• Connect the AG pin and the DG pin each other as close as possible. Connect to the system

ground with low impedance.

• Mount the device directly on the board when mounted on PCBs. Do not use IC sockets. If an

IC socket is unavoidable, use the short lead type socket.

• When mounted on a frame, use electro-magnetic shielding, if any electro-magnetic wave

source such as power supply transformers surround the device.

• Keep the voltage on the V pin not lower than –0.3 V even instantaneously to avoid latch-

up phenomenon when turning the power on.

• Use a low noise (particularly, low level type of high frequency spike noise or pulse noise)

powersupplytoavoiderroneousoperationandthedegradationofthecharacteristicsofthese

devices.

15/18

¡ Semiconductor

PACKAGE DIMENSIONS

DIP16-P-300-2.54

MSM7578H/7578V/7579

(Unit : mm)

Package material

Lead frame material

Pin treatment

Solder plate thickness

Package weight (g)

Epoxy resin

42 alloy

Solder plating

5 mm or more

0.99 TYP.

16/18

¡ Semiconductor

MSM7578H/7578V/7579

(Unit : mm)

SOP24-P-430-1.27-K

Mirror finish

Package material

Lead frame material

Pin treatment

Solder plate thickness

Package weight (g)

Epoxy resin

42 alloy

Solder plating

5 mm or more

0.58 TYP.

Notes for Mounting the Surface Mount Type Package

The SOP, QFP, TSOP, SOJ, QFJ (PLCC), SHP and BGA are surface mount type packages, which

are very susceptible to heat in reflow mounting and humidity absorbed in storage.

Therefore, before you perform reflow mounting, contact Oki’s responsible sales person for the

product name, package name, pin number, package code and desired mounting conditions

(reflow method, temperature and times).

17/18

¡ Semiconductor

MSM7578H/7578V/7579

(Unit : mm)

SSOP20-P-250-0.95-K

Mirror finish

Package material

Lead frame material

Pin treatment

Solder plate thickness

Package weight (g)

Epoxy resin

42 alloy

Solder plating

5 mm or more

0.18 TYP.

Notes for Mounting the Surface Mount Type Package

The SOP, QFP, TSOP, SOJ, QFJ (PLCC), SHP and BGA are surface mount type packages, which

are very susceptible to heat in reflow mounting and humidity absorbed in storage.

Therefore, before you perform reflow mounting, contact Oki’s responsible sales person for the

product name, package name, pin number, package code and desired mounting conditions

(reflow method, temperature and times).

18/18

MSM7578HMS-K [OKI]

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