YSS915 [ETC]

Karaoke Processor 2 for Video disc player; 卡拉OK处理器2视频光盘播放机


型号：	YSS915
厂家：	ETC
描述：	Karaoke Processor 2 for Video disc player 卡拉OK处理器2视频光盘播放机卡拉OK
文件：	总32页 (文件大小：823K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

YSS915

Karaoke Processor 2 for Video disc player

(KP2V2)

INTRODUCTION

YSS915 (KP2V2) is an LSI for processing Karaoke voice signals.

This LSI has an A/D converter (1 channel) for the microphone echo, and a memory for the microphone echo and

key control. These features allow achieving the functions needed for the Karaoke system by using only one LSI

chip. As for the microphone echoes, many other types of echoes are available in addition to ordinary ones so that

YSS915 is applicable to various uses.

In addition to these Karaoke programs, YSS915 is able to provide the Movie & Music programs, with which the

surround effect is applied to the movie and music sources for giving the users more enjoyment.

YSS915 is pin compatible with and register compatible with YSS903 (KP2V).

FEATURES

[ Fundamental Functions ]

1) Karaoke program

• Key Control (Control by 50 cents in +/- 600 cent range, +/- one octave, etc.)

• Voice Cancel

Microphone Echo

• Normal microphone echo (174 msec or less (fs = 44.1 kHz))

• Stereo-Echo/ Reverb-Echo

• Microphone Key Control (+/- 10 cents, +/- 20 cents, +/- 400 cents, +/- 700 cents and +/- 1 octave)

• Microphone "YMERSION™"

Tone Control

• Bass, Mid-tone, Treble (0 to +/- 10 dB at 2 dB steps)

Surround

• "YMERSION™" (Yamaha's original wide surround technology)

2) Movie and music program

Surround

• Initial reflection sound synthesizing system

• Yamaha "YMERSION™"

Tone Control

• Bass, Mid-tone, Treble (0 to +/- 10 dB at 2 dB steps)

[ I/O Interface ]

• Digital signal inputs

• Digital signal outputs

• Analog signal input

: 2 channels (16/18/20/24 bits)

: 1 channel ( for the microphone )

• Microprocessor interface : Serial four line system

• Through-mode

: Digital input is outputted without any processing

(Correspond with fs = 96 kHz 24 bit DVD format)

[ Others ]

• Pin/register upper compatible with YSS903 (KP2V)

• Sampling frequency

• Package

: 32, 37.8, 44.1, 48 kHz or correspond with 96 kHz through-mode.

: 28 pin SOP ( YSS915-M )

YSS915

YAMAHA CORPORATION

CATALOGUE No:LSI-4SS915A2

1999.09

YSS915

Difference between YSS903 and YSS915

1. No built-in DAC.

(Refer to the process flow chart in “OPERATIONS”.)

2. Connectable directly with MSB justified data output ADC.

(Refer to “Format 4” of “4. Digital audio interface” in “ FUNCTIONS”.)

3. Microphone interface terminals CDI and CDO can be connected on the board.

This feature allows to reduce the number of ports by one.

(Refer to “5. Microcomputer interface” in “ FUNCTIONS”.)

4. Input fader has been added for the microphone echo.

This feature allows to apply fade-in/fade-out control to the microphone echo through designation with

one bit from the microcomputer.

(Refer to “1. Karaoke program” in “ OPERATIONS”, and “3) VCR ($02)” of “1. Functions” in

“REGISTERS”.)

5. Zero level detection function has been added for digital audio output.

YSS915 outputs “0” at the pin “ZERO” when an audio input has been zero for a certain period.

This signal can be used to improve S/N ratio by muting the output of external DAC.

(Refer to “6. Others” in “ FUNCTIONS”.)

6. An output port PO has been added for controlling peripheral devices.

The port “PO” can be used, as an example, to control the gain of audio output amplifier through this

LSI from the microcomputer.

(Refer to “6. Others” in “ FUNCTIONS”.)

7. A mode with extended band width for microphone echo has been newly added.

Two types of cut-off frequency have been added for the low pass filter.

(Refer to “7) RVR ($06)” and “11) MDR ($1C)” of “1. Functions” in “REGISTERS”.)

8. Internal DSP has been given the operation accuracy of 20 bits.

Internal multiplier-accumulator become 20bit*13bit=24bit therefore overall bit accuracy become

improved from 18bit(YSS903) to 20bit(YSS915).

In through-mode which internal DSP is not used for processing the accuracy of input data is

maintained to output.

YSS915

PIN CONFIGURATION

SDSY

CDO

CDI

BCI

/SCK

L/R

/CS

DVDD1

BCO

XISEL/ZERO

DVSS2

DVSS1

AVDD

PLLC

AVSS

ADC1

ADC2

VREF

MICIN

DEPI

DVDD2

/IC

AOR

AOL

< 28pin SOP Top View >

YSS915

PIN FUNCTION

No.

Name

I/O(See Note1)

Function

Serial data

I+

O+

Digital audio input

Digital audio output

BCI

Bit clock

Serial data

Word clock

L/R

DVDD1

BCO

Power supply, +5 V (for digital system)

Digital audio output Bit clock

DVSS1

AVDD

PLLC

AVSS

ADC1

ADC2

VREF

MICIN

AOL

Ground (for digital system)

-A

Power supply, +5 V (for analog system)

Connecting resistor and capacitor for PLL

Ground (for analog system)

Connecting capacitor for ADC

Referential voltage output

Analog input, analog voice signal for microphone channel

Outputs analog voice signal for L channel

Outputs analog voice signal for R channel

External clock input

AOR

/IC

Initial clear (Low active)

DVDD2

DEPI

DVSS2

XISEL/ZERO

Power supply, +5 V (for digital system)

De-emphasis control (H : On, L : Off)

Ground (for digital system)

I+/O

Switches master clock rate/ZERO output

Test input terminal /P0 output

/CS

Microcomputer interface input Chip select

Microcomputer interface input Serial clock

Microcomputer interface input Serial data

Microcomputer interface output Serial data

/SCK

CDI

CDO

SDSY

O+

I+

Digital audio input

Word clock

Notes ;

+ : Pull up

A : Analog terminal

YSS915

BLOCK DIAGRAM

This LSI has two input channels (L and R) and two output channels (L and R) for digital audio interface. It also has a

one bit Delta-Sigma type AD converter 1 channel (microphone) that performs Delta-Sigma modulation at its analog

block, and decimation/interpolation of 128 times at its DSP.

Karaoke audio signal is processed by DSP for processing Karaoke audio signal and RAM for delay.

For the details of Karaoke audio signal processing, please refer to "OPERATIONS".

The parameters of this LSI are set through CPU interface. For the details of the parameters, please refer to

"REGISTERS".

/CS

CDI

/SCK

CDO

DEPI

KP2V2

CPU interface

SDSY,DI,BCI

DO,L/R,BCO

ZERO

Digital I/O

Interface

RAM

for delay

DSP

Program ROM

MICIN

/IC

Analog block

Clock

AOL

AOR

XISEL

generator

VREF

PLLC

ADC2

ADC1

MODES

Name of mode

Code

Description

The functions of KP2 (YSS216B) can be used. The registers are compatible, except that

the coefficient registers (addresses $27 and $30 to $33) of KP2 that controls the analog

audio input and analog microphone echo output cannot be used because YSS903 does not

have these ports.

KP2

standard mode

KP2V

extended mode

Every function of this device can be used.

YSS915

PIN FUNCTIONS

1. Clock signal

XI, XISEL, PLLC

Operation of this LSI requires input of clock with frequency of 384 fs (fs : sampling frequency) or 256 fs to the XI

terminal.

Keep the XISEL terminal open when using with the 384 fs clock.(XISEL pin is pulled up internally.)

Pull down XISEL terminal to the digital ground through 4.7 k ohm resistor when using with the 256 fs clock.

The sampling frequency can be selected in the range from 32 kHz to 48 kHz.

The sampling frequency is specified with OPR register ($00).(The sampling frequency of fs = 32 or 48 kHz can be

specified only KP2V Extended mode.)

Sampling

XI input frequency

Available mode

(See Note.)

frequency (fs)

384fs

256fs

Note ;

12.288 MHz

14.5152 MHz

16.9344 MHz

18.432 MHz

8.192 MHz

9.6768 MHz

11.2896 MHz

12.288 MHz

32.0 kHz

37.8 kHz

44.1 kHz

48.0 kHz

N,E

N = KP2 standard mode

E = KP2V extended mode

In addition, the thing that input 37MHz in XI by a maximum is possible in only through-mode.

Connect a resistor and capacitor to PLLC terminal as shown below for adjustment of PLL in the LSI.

PLLC

KP2V2

2. Initial clear

/IC

This LSI requires initial clear at power on. The initial clear is performed by inputting "L" to /IC terminal.

/IC

2msec min

YSS915

3. Analog audio interface

MICIN, ADC1, ADC2, AOL, AOR, VREF

This LSI has a one channel (MIC input) of Delta-Sigma type A/D converter, thus requiring the external circuits as

described below.

The output of AOL and AOR can be used as a direct signal from the microphone because the volume of the signal is

controlled as analog signal which is outputted from AOL and AOR.

Analog input section

Analog output section

Other section

KP2V2

VREF

MICIN

ADC1

ADC2

MIC

AOL

AOR

AVDD

AVSS

YSS915

4. Digital audio interface

SDSY, BCI,DI, L/R,DO,BCO

-1) Digital audio signal is inputted through BCI, SDSY and DI pins using the following format.

BCI

SDSY

DI(16bit)

DI(18bit)

15 14 13 12 11 10

17 16 15 14 13 12 11 10

15 14 13 12 11 10

17 16 15 14 13 12 11 10

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Lch

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Rch

DI(20bit)

DI(24bit)

-2) Digital audio signal is outputted through BCO, L/R, and DO pins using the following format.

BCO

L/R

DO(16bit)

DO(18bit)

15 14 13 12 11 10

17 16 15 14 13 12 11 10

15 14 13 12 11 10

17 16 15 14 13 12 11 10

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Lch

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Rch

DO(20bit)

DO(24bit)

-3) The digital audio interface is made compatible with the following format with OPR register ($00) and DAR register

($04).

Format

BCI

BCO

OPR

[5]

DAR

[3:2]

MDR Available

[3]

mode

64fs

N,E

Format1

Format2

32-96fs

64fs

48fs

BCI

64fs

Format3

Format4

N=KP2 standard mode

E=KP2V extended mode

Format1

Use this format when digital audio input is not used.

Format2

Use this format when digital audio input is used.

BCI is able to accept any frequency between including 96fs from 32fs, while BCO outputs only 64 fs.

BCI, SDSY and DI signals must be synchronized with XI clock.

Format3

Use this format when digital audio input is used.

BCI input signal is passed to the BCO output, being inverted.

SDSY input signal is passed to the L/R output, being delayed by 2.5 clocks of BCI.

BCI, SDSY and DI signals must be synchronized with XI clock.

YSS915

Format4

This format is used to interface with the A/D converter which outputs data MSB justified.

Connect BCO pin of this LSI to the bit clock input pin of the A/D converter, L/R pin to LR clock input pin of the

converter, and DI pin to data output pin of the converter.

BCO outputs 64 fs without regarding to the value of DAR[3:2].

Keep the pins BCI and SDSY open.

The format 4 is as described below.

BCO

L/R

MSB

LSB

MSB

LSB

DO(16bit)

15 14 13 12 11 10

17 16 15 14 13 12 11 10

15 14 13 12 11 10

17 16 15 14 13 12 11 10

DO(18bit)

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Lch

19 18 17 16 15 14 13 12 11 10

23 22 21 20 19 18 17 16 15 14 13 12 11 10

Rch

DO(20bit)

DO(24bit)

-4) Length of data word of the digital audio signal can be set by the DAR register ($04) to 16, 18, 20 or 24 bits (only in

KP2V extended mode). When the data word is 24 bit long, only upper 20 bits are used for processing internal signal.

Length of

inputted word

DAR

[5:4]

Length of

outputted word

DAR

[1:0]

16bit

18bit

20bit

24bit

16bit

18bit

20bit

24bit

Note ; In KP2 standard mode, both of the input and output word lengths are only 16 bits.

-5) The through-mode can be selected by using DAR register ($04) (only in KP2V extended mode).

In the through-mode ;

BCI input signal is passed to the BCO output, being inverted.

SDSY input signal is passed to the L/R output, being delayed by 2.5 clocks of BCI.

DI input signal is passed to the DO output, being delayed by 2.5 clocks of BCI.

When the sampling frequency is in the range from 64 kHz to 96 kHz, the input signal can be passed through this

LSI without deteriorating, for example, the 24 bit data accuracy at the sampling frequency of 96 kHz.

The through-mode is enabled when the value of DAR[bit3:2] is “01”, “10” or 11”.

YSS915

5. Microcomputer interface /CS, /SCK, CDI, CDO, DEPI

These are 8 bit serial interface for writing data into or reading data from internal registers of this device.

Do not write or read data into or from this device in 200 msec from the initial clear moment (rise moment of /IC).

-1) Writing data

Set the address of an internal register into the first byte, and data into the second byte.

Use the following format.

-2) Reading data (only in KP2V extended mode)

For reading data, only MLR register ($10) is provided.

Use the following format.

-3) DEPI

When DEPI is "H", de-emphasis is enabled regardless of the state of internal register.

When DEPI is "L", setting of OPR register ($00) is valid.

6. Others

P0 ,ZERO

-1) P0

P0 pin outputs the value of the register PHC[0]($08). This value is outputted when OPR($00) has been set after the

initial clear. This pin is in High-impedance state until OPR($00) is set.

This function is valid when MDR[0]($1C) is ‘H’. When MDR[0]($1C) is ‘L’, this pin always outputs ‘L’ like

YSS903 does.

-2) ZERO

When both of the digital audio outputs, L and R, have been “zero(0)” for the period equivalent to 511 samplings, the zero

level detection function activates to make ZERO pin output ‘L’ . In other period, this pin is in ‘H’ state.

This value is outputted when OPR($00) has been set after the initial clear. This pin is in HZ state until OPR($00) is set.

This function is valid when MDR[1]($1C) is ‘H’. When MDR[1]($1C) is ‘L’, this pin always outputs ‘L’ like

YSS903 does.

OPERATIONS

Process flow chart

1. Karaoke program

Flow of signal in processing Karaoke audio signal in this LSI is as described by the following diagram.

The Karaoke program can be used in both KP2 standard mode or KP2V extended mode.

In KP2 standard mode, the same functions as those of KP2 can be used, and most of the registers of KP2V and KP2 are compatible with each other,

except that the registers related to analog audio input and analog microphone echo output cannot be used because KP2V does not have these functions.

In KP2V extended mode, every function of the Karaoke program can be used.

Mono-echo, stereophonic echo, 3 D echo and super 3D echo provided in the evaluation board can be obtained by combining the

following microphone echo/Reverb echo, microphone key control and/or microphone YMERSION functions appropriately.

2. Movie and music program

Flow of signal in processing movie and music audio signal in this LSI is as follows

The movie or music program can be used in KP2V extended mode

The fifteen types of the surround mode provided in the evaluation board are obtained by combining the following

tone control, initial reflection sound and/or YMERSION functions appropriately.

OPERATIONS OF FUNCTIONS

1. Karaoke program

Functions for processing the Karaoke audio signals are described here.

Function

Description

Control register

Coefficient register

Controllable

mode

De-emphasis

Input Fader

De-emphasizes audio input signal that has been emphasized.

Specifies a sampling frequency and on/off of de-emphasis.

Controls fade-in/out for audio input signal.

Specifies fade-in/out for each channel after setting fade time (See Note.)

Reduces mid-range signal of inputted audio signal that is located in the center of the sound field such vocal signal

generated by stereophonic CD.

OPR[1]

N,E

OPR[7:6]

VCR[1:0]

TMR[7:0]

VCR[4]

TMR[7:0]

OPR[7:6]

N,E

Voice Cancel

Key Control

N,E

Specifies voice cancel on/off after setting sampling frequency and fade time. (See Note.)

Changes key of inputted audio signal, and controls key shift for audio input signal. The amount of key shift must be KSR[4:0]

specified.

Controls tone of inputted audio signal in three frequency bands.

TCR[7:0]

Tone Control

Surround

Specifies the levels for bass (fc = 200 Hz), treble (fc = 5 kHz), and mid-tone (fc = 1 kHz) after selecting a sampling RVR[3:0]

frequency.

OPR[7:6]

KSR[6:5]

C01,C04

MLR[7:0]

C14

Applies YMERSION surround to audio input signal. One of four types of surround modes is selected and Output

levels for R and L channels are set individually based on the selected surround mode.

Detects and reads the level of signal input from microphone.

Specifies the time constant for level detection.

N,E

Microphone

level detection

Microphone

Echo

Applies echo to signal from microphone processed by setting delay and feedback.

Specifies delay time, feedback level and output signal level for L/R.

Expands echo by providing stereophonic output.

C05,C08,C0B,C0C

C16,C17,C00,C03

C1A,C1B

RVR[4]

N,E

Stereo Echo

Reverberation Echo Damps echo naturally by adding reverb function.

Applies microphone echo by subjecting signal inputted from microphone to key shift.

Specifies the amount of key shift and output signal level for L/R.

KER[7:0]

C18,C19

Microphone

key control

Microphone

YMERSION

Soft Mute

Applies YMERSION to microphone echo to obtain expansion that is specific to YMERSION.

C1C,C1D

Specifies output signal level for L/R.

Noiseless mute, Specifies on/off.

OPR[3]

N,E

Controls volume.

C02,C06,C09,C0A

C0D,C0E,C0F,C15

C1E,C1F

Volume

Some of the functions can be set in either of KP2 standard mode or KP2V extended mode, some only in KP2V

extended mode.

Note ; The fade time is applicable to the input fader and voice cancel functions.

2. Movie and music program

Functions for processing the movie and music signals are described here.

The movie and music program can be used in KP2V extended mode.

Function

Description

Control register

Coefficient register

De-emphasizes audio input signal that has been emphasized.

De-emphasis

Tone Control

OPR[1]

Specifies a sampling frequency and on/off of de-emphasis.

Controls tone of inputted audio signal in three frequency bands.

Specifies the levels for bass (fc = 200 Hz), treble (fc = 5 kHz), and mid-tone (fc = 1 KHz) after selecting a sampling

frequency.

OPR[7:6]

TCR[7:0]

RVR[3:0]

OPR[7:6]

Applies surround that uses initial reflected sound synthesizing system to audio input signal.

One of four types of surround modes is selected and Output levels for R and L channels are set individually based on the

selected surround mode.

KSR[6:5]

Surround 1

(Initial reflected

sound)

C10,C11,C12

C13,C18,C19

KSR[7]

Applies YMERSION surround to audio input signal.

One of two types of surround modes is selected and Output levels for R and L channels are set individually based on the

selected surround mode.

Surround 2

C1A,C1B,C1C

C1D,C01,C04

OPR[3]

(YMERSION)

Soft Mute

Volume

Noiseless mute, Specifies on/off.

C02,C06,C09,C0A,

C0E,C0F,C15,C16

C17,C1E,C1F

Controls volume.

This LSI presents the features of sound field by using a combination of tone control, surround (initial reflected sound)and surround(YMERSION).

The tone control determines frequency characteristics of the sound field.

Initial reflected sound synthesis determines extent and depth of sound field to characterize a surround environment(concert hall and stadium).

YMERSION surround determines size and extent of reverberation.

YSS915

REGISTERS

This LSI is controlled by setting data into the registers.

The address, name and function of each register is outlined as follows.

Address

$00

Name

OPR

KSR

VCR

TMR

DAR

TCR

RVR

KER

PHC

MLR

MDR

C00

Function

Controls internal operations.

$01

Controls key and surround.

$02

Controls input fader and voice cancel.

Controls fade time for input fader and voice cancel.

Controls digital audio I/O format.

Controls tone (bass, treble).

$03

$04

$05

$06

Controls tone (mid-range) and Reverb-echo.

Controls key for microphone.

$07

$08

Port output register.

$10

Reads microphone level.

$1C

$20

Switching KP2 standard/KP2V extension mode, and others.

Coefficient register (controls volume and delay.)

$3F

C1F

Controllable and uncontrollable registers (bits) vary according to the following modes.

The mode is specified as follows according to the status of bit 7 of MDR register($1C).

Code

Mode

MDR($1C)[bit 6]

KP2 standard mode

KP2V extended mode

YSS915

1. Functions

Functions, default value and controllable mode are as shown below.

The default value is the value that is set at initial clear or the one obtained in other than the controllable mode.

-1) OPR($00): Control of internal operation

bit

Function

Default Controllable

mode

Unused (Set "1" here.)

Controlling De-emphasis

"1" = De-emphasis is disabled.

"0" = De-emphasis is enabled.

N,E

Note ; Whenever DEPI is "H", de-emphasis is enable regardless of the status of

this bit.

Unused (Set "0" here.)

Controlling soft mute

"1" = Soft mute is off (Fade-in at (1024/fs (sec))

"0" = Soft mute is on (Fade-out at (1024/fs (sec))

Note ; fs = sampling frequency (Hz)

Controlling internal accumulator output clear on/off

"1" = Internal accumulator output clear is on.

"0" = Internal accumulator output clear is off (Normal operation).

Controlling sync mode

"1" = Internal synchronization mode

(Digital audio input signals (BCI, SDSY and DI) are not used.)

"0" = External synchronization mode

(Digital audio input signals (BCI, SDSY and DI) are used.)

Selecting sampling frequency

N,E

‘b7 b6’

"0 0 " =37.8kHz

"0 1 " =44.1kHz

N,E

"1 0 " =32.0kHz

"1 1 " =48.0kHz

Note ; The frequencies 32.0 kHz and 48.0 kHz are valid in KP2V extension mode.

YSS915

-2) KSR($01) : Control of key and surround

bit

Function

Default Controllable

mode

Amount of key shift for audio signal key control

(This function is valid on Karaoke program. For the correspondence between

the setting value for key control and the amount of key shift, refer to the table

N,E

below.)

Selecting a type of surround (YMERSION) for Karaoke program, or a type of

surround (initial reflected sound) for movie or music program.

(For the Correspondence between the setting value and the surround type,

N,E

)

refer to the table below.

Selecting a surround mode for YMERSION (valid in movie and music mode)

"0" = MODE0

"1" = MODE1

Correspondence between the setting value for key control

and the amount of key shift for audio signal

KSR

bit

4-0

Amount of key shift

4-0

Amount of key shift

9-1/2 keys up

1 octave up

3-1/2 keys up

3 keys up

2-3/4 keys up

2-2/4 keys up

2-1/4 keys up

2 keys up

1-3/4 keys up

1-2/4 keys up

1-1/4 keys up

1 key up

1/4 key down

2/4 key down

3/4 key down

1 key down

1-1/4 keys down

1-2/4 keys down

1-3/4 keys down

2 keys down

2-1/4 keys down

2-2/4 keys down

2-3/4 keys down

3 keys down

3/4 key up

2/4 key up

1/4 key up

No key shift

3-1/2 keys down

1 octave down

7 keys down

9-1/2 keys down

Correspondence between the surround type and surround selection bit

KSR

bit

6 5

Surround for Karaoke program

Surround for movie and music program

(Initial reflected sound)

HALL0 (See Note.)

HALL1 (See Note.)

STADIUM

(YMERSION)

0 0

0 1

1 0

1 1

PSEUDO-STEREOPHONIC SOUND

LIVE

MOVIE

KARAOKE

ROCK CONCERT

Note ; HALL0 → Concert hall that provides standard reverberation

HALL1 → Concert hall that provides long reverberation

YSS915

-3) VCR($02) : Control of input fader and voice cancel (valid for Karaoke program)

bit

Function

Default

Controllable

mode

Controlling fade-in/out at digital audio input L channel

“ 1 ” = Starting fade in

“ 0 ” = Starting fade out

N,E

Note ; Before this bit is set, set fade time into TMR ($03).

Controlling fade-in/out at digital audio input R channel

“ 1 ” = Starting fade in

“ 0 ” = Starting fade out

N,E

Note ; Before this bit is set, set fade time into TMR ($03)

Unused (Set "0" here.)

Controlling voice cancel on/off

“ 1 ” = On (switching from through-path to voice-canceled path)

“ 0 ” = Off (switching from voice-canceled path to through-path)

Note ; Before this bit is set, set cross fade time into TMR ($03).

N,E

Fade-in/fade-out for microphone echo input

“ 0 ” = Starting fade in

“ 1 ” = Starting fade out

Note ; Fade time = 1024/fs(sec)

Unused (Set "0" here.)

-4) TMR($03) : Control of fade time for input fader and voice cancel (valid for Karaoke program)

Default Controllable

mode

bit

Function

Fade time for input fader and voice cancel

Fade time = 1024/fs(sec) when TMR=00h

N,E

1048576/fs/TMR(sec) when TMR=other than 00h

Note ; fs = sampling frequency

YSS915

-5) DAR($04) : Control of digital audio I/O format

bit

Function

Default Controllable

mode

Selecting digital audio output data word length

“b1 b0”

“ 0

“ 1

0 ” = 16 bits

1 ” = 18 bits

0 ” = 20 bits

1 ” = 24 bits

This function is valid when bit 5 of OPR($00) = 0. When this bit = 1, the digital

audio output synchronizes with internal clock (64 fs).

“b3 b2”

“ 0

“ 1

0 ” = Synchronizing with internal clock (64 fs)

1 ” = Synchronizing with BCI (64 fs)

0 ” = Synchronizing with BCI (48 fs)

1 ” = Synchronizing with BCI (32 fs)

Selecting digital audio input data word length

“b5 b4”

“ 0

“ 1

0 ” = 16bit

1 ” = 18bit

0 ” = 20bit

1 ” = 24bit

Selecting an output to digital audio output terminal (BCO, L/R and DO)

“b7 b6”

“ 0

“ 1

0 ” = Normal (Internally processed data are outputted.)

1 ” = BCO, L/R and DO are fixed to "L".

0 ” = BCI, SDDY and DI are through-outputted.

(For the details, refer to 4-5) in Page 9.)

“ 1

1 ” = Inhibited

YSS915

-6) TCR($05) : Control of tone (bass, treble)

bit

Function

Default Controllable

mode

Controlling level of bass (fc = 200 Hz) (fc = cutoff frequency)

(For the correspondence between the setting value and the level, refer to the

table below.)

Controlling level of treble (fc = 5 kHz) (fc = cutoff frequency)

(For the correspondence between the setting value and the level, refer to the

table below.)

-7) RVR($06) : Control of tone (mid-range) and Reverb echo

bit

Function

Default Controllable

mode

Controlling level of mid-tone (fc = 1 kHz) (fc = center frequency)

(For the correspondence between the setting value and the level, refer to the

table below.)

Controlling reverb on/off (valid for Karaoke program)

“ 0 ” = Reverb off

“ 1 ” = Reverb on

Selection of low pass filter for microphone echo

“ 0 ” = Cut off frequency equivalent to that of YSS903 (Standard)

“ 1 ” = Cut off frequency higher than that of YSS903 (Wide)

Unused (Set "0" here.)

Correspondence between the setting value and the level

TCR

RVR

Level of

bass

Level of

treble

bit

3 - 0

bit

7 - 4

bit

3 - 0

mid-tone

Inhibited

+10dB

+8dB

Inhibited

+10dB

+8dB

Inhibited

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

-2dB

-4dB

-6dB

-8dB

-10dB

Inhibited

-2dB

-4dB

-6dB

-8dB

-10dB

Inhibited

-2dB

-4dB

-6dB

-8dB

-10dB

Inhibited

YSS915

-8) KER($07) : Control of Key for microphone

bit

Function

Default Controllable

mode

Amount of key shift for controlling microphone key at L channel

(This function is valid on Karaoke program. For the correspondence between

the setting value and the amount of key shift, refer to the table below.)

Amount of key shift for controlling microphone key at R channel

(This function is valid on Karaoke program. For the correspondence between

the setting value and the amount of key shift, refer to the table below.)

Correspondence between the setting value and the amount of key shift

KER

bit

3 - 0

Amount of key shift at

L channel

bit

7 - 4

Amount of key shift at

R channel

Inhibited

1 octave up

3-1/2 keys up

2 keys up

1 octave up

3-1/2 keys up

2 keys up

20 cents up

10 cents up

No key shift

10 cents down

20 cents down

2 keys down

3-1/2 keys down

1 octave down

Inhibited

20 cents up

10 cents up

No key shift

10 cents down

20 cents down

2 keys down

3-1/2 keys down

1 octave down

Inhibited

-9) PHC($08) : Output port register

bit

Function

Default Controllable

mode

This value is outputted at PO pin.

This function is enabled when MDR[0]($1C) = ‘H’. When it is ‘L’, PO pin is

always at ‘L’ state.

Unused (Set "0" here.)

YSS915

-10) MLR($10) : Microphone level read register (valid for Karaoke program)

bit

Function

Default Controllable

mode

Detected microphone level

( unsigned binary of 8bits )

-11) MDR($1C) : Switching KP2 standard mode/KP2V extended mode, and others

bit

Function

Default Controllable

mode

Specifies whether the value of PHC[0]($08) is outputted at PO pin.

“ 0 ” = Not outputted (The same as YSS903)

“ 1 ” = Outputted

Specifies whether the result of zero level detection is outputted at ZERO pin.

“ 0 ” = Not outputted (The same as YSS903)

“ 1 ” = Outputted

Selects band width for microphone echo

“ 0 ” = Sampling frequency is 8 kHz. (The same as YSS903)

“ 1 ” = Sampling frequency is 12 kHz.

Connection with MSB justified data output A/D converter

“ 0 ” = Direct connection not allowed (The same as YSS903)

“ 1 ” = Direct connection allowed

Selecting karaoke/movie & music program

“ 0 ” = Karaoke program

“ 1 ” = Movie & music program

(When switching the program, be sure to mute, change the setting of

coefficient register and this bit, and then release the mute when 250 ms has

passed.)

Unused

N,E

Switching KP2 standard mode/KP2V extended mode

“ 0 ” = KP2 standard mode

“ 1 ” = KP2V extended mode

Unused (Set "0" here.)

YSS915

-12) C**($20 to $3F) : Coefficient registers (Controlling volume and delay)

bit 7

bit 6

bit 5

bit 4

bit 3

bit 2

bit 1

bit 0

C7-C0:Sets volume coefficient or delay coefficient

•

For the addresses of the registers their functions for Karaoke and movie & music programs, refer to the following

table and flow chart described in "OPERATIONS" section.

For the relation between the setting value of coefficient, and volume level and delay time, refer to the formula shown

later.

When the coefficient registers controllable only in KP2V extended mode is used in the KP2 standard mode, the

following preset values are used as their coefficient of address, and their setting values are not used.

The values of the registers are indefinite immediately after turning on the power, be sure to set the register values in

the controllable mode before releasing the mute.

Name, function, preset value and controllable mode of the addresses of the coefficient

address

Function

Preset Controllable

value

mode

$20

$21

$22

$23

$24

$25

$26

$27

$28

$29

$2A

$2B

$2C

$2D

$2E

$2F

$30

$31

$32

$33

$34

$35

$36

$37

$38

$39

$3A

$3B

$3C

$3D

$3E

$3F

C00 Echo L channel output mixing level

C01 Surround L channel output mixing level

C02 Audio L channel output mixing level

C03 Echo R channel output mixing level

C04 Surround R channel output mixing level

C05 Microphone echo L channel delay

C06 Audio R channel output mixing level

N,E

Unused

C08 Microphone echo R channel delay

N,E

C09 Digital input L - L channel mixing level

C0A Digital input L - R channel mixing level

C0B Microphone echo L channel feedback level

C0C Microphone echo R channel feedback level

C0D Microphone echo input level

C0E Digital input R - L channel mixing level

C0F Digital input R - R channel mixing level

Unused

C14 Time constant for microphone level detection

C15 Microphone direct sound output mixing level

C16 Microphone echo L channel mixing level

C17 Microphone echo R channel mixing level

C18 Microphone key control L channel mixing level

C19 Microphone key control R channel mixing level

C1A Stereo-phonic echo L channel mixing level

C1B Stereo-phonic echo R channel mixing level

C1C Microphone echo YMERSION L channel mixing level

C1D Microphone echo YMERSION R channel mixing level

C1E L channel total output level

$00

$1F

$7F

$00

$7F

C1F R channel total output level

YSS915

Name, function, and controllable mode of the addresses of the coefficient register for

movie and music program

address

Function

Controllable

mode

$20

$21

$22

$23

$24

$25

$26

$27

$28

$29

$2A

$2B

$2C

$2D

$2E

$2F

$30

$31

$32

$33

$34

$35

$36

$37

$38

$39

$3A

$3B

$3C

$3D

$3E

$3F

Unused

C01 Surround (YMERSION) L channel output mixing level

C02 Audio & surround (initial reflected sound) L channel output mixing level

Unused

C04 Surround (YMERSION) R channel output mixing level

Unused

C06 Audio & surround (initial reflected sound) R channel output mixing level

Unused

C09 Digital input L - L channel mixing level

C0A Digital input L - R channel mixing level

Unused

C0E Digital input R - L channel mixing level

C0F Digital input R - R channel mixing level

C10 Surround (initial reflected sound) input 1 L channel mixing level

C11 Surround (initial reflected sound) input 1 R channel mixing level

C12 Surround (initial reflected sound) input 2 L channel mixing level

C13 Surround (initial reflected sound) input 2 R channel mixing level

Unused

C15 Microphone direct sound output mixing level

C16 Audio L channel output mixing level

C17 Audio R channel output mixing level

C18 Surround (initial reflected sound) L channel mixing level

C19 Surround (initial reflected sound) R channel mixing level

C1A Surround (YMERSION) input 1 L channel mixing level

C1B Surround (YMERSION) input 1 R channel mixing level

C1C Surround (YMERSION) input 2 L channel mixing level

C1D Surround (YMERSION) input 2 R channel mixing level

C1E L channel total output level

C1F R channel total output level

Correspondence between setting value and level of C15

C15

bit

7-0

bit

7-0

bit

7-0

Level

-18.0dB

-19.5dB

-21.0dB

-22.5dB

-24.0dB

-25.5dB

-27.0dB

-28.5dB

-30.0dB

-31.5dB

-33.0dB

-34.5dB

-36.0dB

-37.5dB

-39.0dB

-40.5dB

-42.0dB

-43.5dB

-45.0dB

MUTE

-1.5dB

-3.0dB

-4.5dB

-6.0dB

-7.5dB

-9.0dB

-10.5dB

-12.0dB

-13.5dB

-15.0dB

-16.5dB

Inhibited

YSS915

Relation between setting value of coefficient registers ($20 to $3F), and volume level and

delay time

YSS915

ELECTRICAL CHARACTERISTICS

1. Absolute maximum ratings

Item

Code

Rating

Unit

Power source voltage

Digital input voltage

Analog input voltage

Operating temperature

Storage temperature

AVDD,DVDD

-0.3 to 7.0

-0.5 to DVDD + 0.5

-0.5 to AVDD + 0.5

0 to 70

°C

Top

Tstg

-50 to 125

2. Recommended operating conditions

Item

Code

Minimum

Typical

Maximum

Unit

Digital power source voltage

Analog power source voltage

Operating temperature

DVDD

AVDD

Top

4.75

4.50

5.00

5.25

°C

3. DC characteristics (Conditions : Ta = 0 to 70 °C, DVDD = 5.0 +/- 0.25 V)

Item

Code

Condition

Minimum

Typical

Maximum Unit

Power source current

Input voltage H level (1)

Input voltage H level (2)

Input voltage L level

Input leakage current

Output voltage H level

Output voltage L level

IDD

VIH1

VIH2

VIL

ILK

VOH

VOL

VDD = 5.0V

(See Note 1)

(See Note 2)

µA

2.0

3.5

0.8

-10

VDD-1.0

IOH = -0.4mA

IOL = 1.6mA

0.4

Notes ;

(1) Applies to input terminals other than XISEL.

(2) Applies to input terminal XISEL.

4. Analog characteristics (Conditions : Ta = 25 °C, DVDD=AVDD = 5.0 V)

Item

Code

Condition

(See Note 1)

(See Note 3)

Minimum Typical Maximum Unit

Analog input voltage

Analog output voltage

VIA

VOA

(See Note 2)

2.8

0.04

A DC • Total harmonic distortion THD+N (See Note 5,6 ) 0 dB

• Dynamic range (See Note 4,5,6 ) -60 dB

Analog through

• Total harmonic distortion THD+N (See Note 6,7 ) 0 dB

• Dynamic range (See Note 4,6,7 ) -60 dB

Notes ; Input signal frequency is 1KHz.

(1) Peak to peak value. Applies to MICIN terminal

0.2

0.005

0.02

(2) Any voltage can be used if input resistor attached externally to MICIN is selected properly

VIA=R/9.4K, When value of a resistor was shown with R,

(3) Peak to peak value. Applies to AOL and AOR terminals. The output voltage is in proportion to AVDD.

(4) Uses IHF-A

(5) The signal is outputted through MICIN inputs to digital outputs via Volume.

(6) Input resistor attached externally to MICIN : 47 kΩ. 0 dB = 4.65 Vpp

(7) The signal is outputted through MICIN inputs to AOL and AOR via volume.

YSS915

5. AC characteristics (Conditions : Ta = 0 to 70 °C, DVDD = 5.0 +/- 0.25 V)

Item

Code

Minimum

12.0

Typical

Maximum

Unit

Input frequency fc (See Note 1)

fc (See Note 2)

Duty factor

Frequency

On/off time

Transition time

18.5 (See Note 3) MHz

12.5 (See Note 4) MHz

8.0

fBC

tBO

tBT

tDS

tDH

BCI

1.0

4.7(See Note 5)

MHz

100 (See Note 6)

DI, SDSY Setup time

Hold time

80 (See Note 7)

-20

DO, L/R

/CS

/SCK

Access time

Setup time

On/off time

1/150fs(See Note 8)

600

tCS

tSO

tCT

tSS

tSH

1/50fs (See Note 8)

µs

/CS, /SCK Transition time

CDI

Setup time

Hold time

Access time

1/100fs(See Note 8)

CDO

/IC

tCD

220

100

Hold time

(See Note 9)

(See Note 10)

Notes ;

(1) XI = 384 fs (See Note 8.)

(2) XI = 256 fs (See Note 8.)

(3) 37 MHz in through-mode

(4) 25 MHz in through-mode

(5) 6.2 MHz in through-mode

(6) 70 ns in through-mode

(7) 50 ns in through-mode

(8) fs : sampling frequency

(9) Just after turn on the power

(10) In operation

YSS915

tBO

tBT

2.0V

0.8V

tBO

BCI

tDS

tDH

2.0V

0.8V

DI,SDSY

BCO

0.4V

VDD-1.0V

0.4V

DO,L/R

tCT

2.0V

0.8V

tCS

/CS

tCT

tSO

tCT

tSO

2.0V

0.8V

/SCK

CDI

tSS

tSH

2.0V

0.8V

tCD

CDO

4.75V

DVDD

/IC

tIX

tIL

0.8V

YSS915

A procedure to change Normal mode to Through-mode

Normal mode means that it can apply the sound effect using internal DSP function and the sampling frequency is

between 32kHz and 48kHz in this mode.

Through-mode means that the digital input data fed to YSS915 is bypassed to digital output pin without processing

by DSP and the sampling frequency is 64kHz to 96kHz.

For example, when the sampling frequency is changed from 48kHz( called fs-single) to 96kHz( called fs-double),

master clock frequency fed to XI pin of YSS915 may be changed according to the fs(sampling frequency).

In this case please refer to the following procedure.

A. Change Normal mode (fs-single) to Through-mode (fs-double)

Mute Analog output of the product

Set /IC=”0” of YSS915

Change the master clock frequency (XI of YSS915) from “single “ to “double”

Wait 2msec or more

Set /IC=”1”

Set the parameters from the microprocessor to YSS915 as followed

opr [7:0] = 8’bxx00x0x1

mdr [7:0] = 8’b01100000

dar [7:0] = 8’b10xx01xx or 8’b10xx10xx or 8’b10xx11xx

x means don’t care

Disable to mute Analog output of the product

Mute of Analog out

mute

/IC of YSS915

XI of YSS915

single

double

2msec min

Setting from microprocessor

to YSS915

setting

B. Change Through-mode (fs-double) to Normal mode (fs-single)

Mute Analog output of the product

Set /IC=”0” of YSS915

Change the master clock frequency (XI of YSS915) from “double“ to “single”

Wait 2msec or more

Set /IC=”1”

Set the parameters from the microprocessor to YSS915 as the same way after power on

Mute of Analog out

mute

/IC of YSS915

XI of YSS915

double

single

2msec min

Setting from microprocessor

to YSS915

setting

YSS915

EXTERNAL DIMENSIONS

YSS915

Memo

YSS915

IMPORTANT NOTICE

1. Yamaha reserves the right to make changes to its Products and to this document without

notice. The information contained in this document has been carefully checked and is believed to

be reliable. However, Yamaha assumes no responsibilities for inaccuracies and makes no

commitment to update or to keep current the information contained in this document.

2. These Yamaha Products are designed only for commercial and normal industrial applications,

and are not suitable for other uses, such as medical life support equipment, nuclear facilities,

critical care equipment or any other application the failure of which could lead to death, personal

injury or environmental or property damage. Use of the Products in any such application is at the

customer’s sole risk and expanse.

3. YAMAHA ASSUMES NO LIABILITY FOR INCIDENTAL, CONSEQUENTIAL OR SPECIAL

DAMAGES OR INJ URY THAT MAY RESULT FROM MISAPPLICATION OR IMPROPER USE

OR OPERATION OF THE PRODUCTS.

4. YAMAHA MAKES NO WARRANTY OR REPRESENTATION THAT THE PRODUCTS ARE

SUBJ ECT TO INTELLECTUAL PROPERTY LICENSE FROM YAMAHA OR ANYTHIRD

PARTY, AND YAMAHA MAKES NO WARRANTY OR REPRESENTATION OF NON-

INFRINGEMENT WITH RESPECT TO THE PRODUCTS. YAMAHA SPECIFICALLY

EXCLUDES ANY LIABILITY TO THE CUSTOMER OR ANY THIRD PARTY ARISING FROM

OR RELATED TO THE PRODUCTS’ INFRINGEMENT OF ANY THIRD PARTY’S

INTELLECTUAL PROPERTY RIGHTS, INCLUDING THE PATENT, COPYRIGHT,

TRADEMARK OR TRADE SECRET RIGHTS OF ANY THIRD PARTY.

5. EXAMPLES OF USE DESCRIBED HEREIN ARE MERELY TO INDICATE THE

CHARACTERISTICS AND PERFORMANCE OF YAMAHA PRODUCTS. YAMAHA ASSUMES

NO RESPONSIBILITY FOR ANY INTELLECTUAL PROPERTY CLAIMS OR OTHER

PROBLEMS THAT MAY RESULT FROM APPLICATIONS BASED ON THE EXAMPLES

DESCRIBED HEREIN. YAMAHA MAKES NO WARRANTY WITH RESPECT TO THE

PRODUCTS EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO THE

WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR USE AND TITLE.

Note) The Specifications of this product are subject to improvement changes without prior notice

YAMAHA CORPORATION

Address inquiries to:

Semiconductor Sales & Marketing Department

AGENCY

n Head Office

n Tokyo Office

n Osaka Office

203,Matsunokijima, Toyooka-mura,

Iwata-gun, Shizuoka-ken, 438-0192

Tel. 81-539-62-4918 Fax. 81-539-62-5054

2-17-11, Takanawa, Minato-ku,

Tokyo, 108-8568

Tel. 81-3-5488-5431 Fax. 81-3-5488-5088

Namba Tujimoto Nissei Bldg, 4F

1-13-17, Namba Naka, Naniwa-ku,

Osaka City, Osaka, 556-0011

Tel. +81-6-6633-3690 Fax. +81-6-6633-3691

YAMAHA Systems Technology.

100 Century Center Count, San J ose, CA 95112

Tel. 1-408-467-2300 Fax. 1-408-437-8791

n U.S.A. Office

YSS915 [ETC]

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YSS932

YSS932-S

YSS940

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YSS943-VZ

YSS944

YSS944-VZ

YSS950