Sony CXD2588R, CXD2588Q Datasheet

Description

The CXD2588Q/R is a digital signal processor LSI for CD players. This LSI incorporates a digital servo, digital filter, zero detection circuit, 1-bit DAC and analog low-pass filter on a single chip.

Features

Digital Signal Processor (DSP) Block

• Playback mode which supports CAV (Constant

Angular Velocity)

• Frame jitter free

• 0.5× to 4× continuous playback possible

• Allows relative rotational velocity readout

• Supports spindle external control

• Wide capture range playback mode

• Spindle rotational velocity following method

• Supports normal-speed, 4× speed playback

• 16K RAM

• EFM data demodulation

• Enhanced EFM frame sync signal protection

• SEC strategy-based error correction

• Subcode demodulation and Sub Q data error

detection

• Digital spindle servo

• 16-bit traverse counter

• Asymmetry compensation circuit

• CPU interface on serial bus

• Error correction monitor signal, etc. output from a

new CPU interface

• Servo auto sequencer

• Digital audio interface outputs

• Digital level meter, peak meter

• CD TEXT data demodulation

Digital Servo (DSSP) Block

• Microcomputer software-based flexible servo control

• Offset cancel function for servo error signal

• Auto gain control function for servo loop

• E:F balance, focus bias adjustment functions

• Surf jump function supporting micro two-axis

Digital Filter, DAC and Analog Low-Pass Filter Blocks

• DBB (digital bass boost) function

• Double-speed playback supported

• Digital de-emphasis

• Digital attenuation

• Zero detection function

• 8Fs oversampling digital filter

• S/N: 100dB or more (master clock: 384Fs, typ.)

• Logical value: 109dB

• THD + N: 0.007% or less (master clock: 384Fs, typ.)

• Rejection band attenuation: –60dB or less

Applications

CD players

Structure

Silicon gate CMOS IC

Absolute Maximum Ratings

• Supply voltage VDD –0.3 to +7.0 V

• Input voltage VI –0.3 to +7.0 V

(VSS – 0.3V to VDD + 0.3)

• Output voltage VO –0.3 to +7.0 V

• Storage temperature Tstg –40 to +125 °C

• Supply voltage difference

VSS – AVSS –0.3 to +0.3 V VDD – AVDD –0.3 to +0.3 V

Recommended Operating Conditions

• Supply voltage VDD

Note)

+2.7 to +5.5 V

•

Operating temperature

Topr –20 to +75 °C

Note) The VDD for the CXD2588Q/R varies according

to the playback speed selection.

– 1 –

CXD2588Q/R

E97519-PS

CD Digital Signal Processor with Built-in Digital Servo and DAC

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

CXD2588Q

100 pin QFP (Plastic)

CXD2588R

100 pin LQFP (Plastic)

Playback speed

CD-DSP block DAC block

4×

4.75 to 5.25

1×

3.0 to 5.5 4.5 to 5.5

2.7 to 5.5

1×

2.7 to 5.5

VDD [V]

I/O Capacitance

• Input pin CI 11 (Max.) pF

• Output pin CO 11 (Max.) pF

• I/O pin CI/O 11 (Max.) pF Note) Measurement conditions VDD = VI = 0V

fM = 1MHz

For the availability of this product, please contact the sales office.

– 2 –

CXD2588Q/R

Block Diagram

PWM PWM

AOUT1

AIN1 LOUT1 AOUT2

AIN2 LOUT2

3rd-Order

Noise Shaper

Over Sampling

Digital Filter

Serial-In

Interface

LMUT

RMUT

XTAO

XTAI

Timing

Logic

XRST

TEST

TES1

D/A

Interface

DOUT

EFM

demodurator

Error

Corrector

16K

RAM

Digital

OUT

Sub Code Processor

Clock

Generator

Asymmetry

Corrector

Digital

PLL

CPU

Interface

Servo

Auto

Sequencer

DAC Block

PCMDI

BCK

PCMD

LRCK

C2PO

WFCK

EMPH

GFS

XUGF

XTSL

RFAC

ASYI

ASYO

BIAS

FSTO

FILO

FILI

PCO

CLTV

MDP

PWMI

SENS

DATA

XLAT CLOK SPOA SPOB XLON

SCOR

SBSO EXCK

SERVO

Interface

SCLK COUT

SSTP ATSK

MIRR DFCT

FOK

MIRR DFCT FOK

SERVO DSP

FOCUS SERVO

TRACKING

SERVO

SLED SERVO

PWM GENERATOR

FOCUS PWM GENERATOR

TRACKING PWM

GENERATOR

SLED PWM

GENERATOR

FFDR FRDR TFDR TRDR SFDR SRDR

RFDC

CE

TE

SE

FE

VC

IGEN

OPAmp

Analog SW

A/D

Converter

ADIO

BCKI

SYSM

LRCKI

EMPHI

WDCK

VPCO

VCKI

OSC

V16M

VCTL

XPCK

C4M

SQSO SQCK

LOCK

Digital

CLV

FSTI

TES2

Signal Processor Block

Servo Block

– 3 –

CXD2588Q/R

Pin Configuration (CXD2588Q)

LMUT

NC

SQSO

SQCK

SBSO

EXCK

XRST

SYSM

DATA

XLAT

CLOK

SENS

SCLK

PWMI

V

DD

V

DD

ATSK

SPOA

SPOB

XLON

WFCK

XUGF

XPCK

GFS

C2PO

SCOR

C4M

WDCK

COUT

MIRR

PCMD

LRCKI

LRCK

DOUT

V

DD

TES2

V

SS

VPCO

V16M

VCKI

VCTL

AV

DD

3

PCO

FILI

FILO

CLTV

AV

SS

3

RFAC

BIAS

ASYI

ASYO

AV

DD

0

IGEN

AV

SS

0

ADIO

RFDC

CE

TE

NC

SE

FE VC XTSL TES1 TEST VSS VSS FRDR FFDR TRDR TFDR SRDR SFDR FSTI FSTO SSTP MDP LOCK FOK DFCT

40

39

38 37 36 35

34

31

32

33

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

57

58

59

60

70

69

68

67

63

64

65

66

61

62

71

72

73

74

75

76

77

78

79

80

2

3

4

5

6

7

8

9

10

11

12

13

14 15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

1

81 82 83 84

88

87

86

85

89

90

100

99

98

97

96

95

94

91 92 93

PCMDI

BCK

BCKI

EMPH

EMPHI

XVDD

XTAI

XTAO

XV

SS

AVDD1

AOUT1

AIN1

LOUT1

AV

SS1

AVSS2

LOUT2

AIN2

AOUT2

AVDD2

RMUT

– 4 –

CXD2588Q/R

Pin Configuration (CXD2588R)

SQSO

SQCK

SBSO

EXCK

XRST

SYSM

DATA

XLAT

CLOK

SENS

SCLK

PWMI

V

DD

V

DD

ATSK

SPOA

SPOB

XLON

WFCK

XUGF

XPCK

GFS

C2PO

SCOR

C4M

DOUT

V

DD

TES2

V

SS

VPCO

V16M

VCKI

VCTL

AV

DD

3

PCO

FILI

FILO

CLTV

AV

SS

3

RFAC

BIAS

ASYI

ASYO

AV

DD

0

IGEN

AV

SS

0

ADIO

RFDC

CE

TE

LRCK LRCKI PCMD

PCMDI

BCK

BCKI

EMPH

EMPHI

XVDD

XTAI

XTAO

XVSS

AVDD1

AOUT1

AIN1

LOUT1

AVSS1 AVSS2

LOUT2

AIN2

AOUT2

AVDD2

RMUT

LMUT

NC

2

3

4

5

6

7

8

9

10

11

12

13

14 15

16

17

18

19

20

21

22

23

24

25

1

76 77 78

79 80

26

27

28

29

30

40 39 38

37 36 35

34

31

32

33

41

42

43

44

45

46

47

48

49

50

81 82 83 84

88

87

86

85

89 90

100

99

98

97

96

95

94

91 92 93

51

52

53

54

55

56

57

58

59

60

70

69

68

67

63

64

65

66

61

62

71

72

73

74

75

NC SE FE VC XTSL TES1 TEST V

SS

VSS FRDR FFDR TRDR TFDR SRDR SFDR FSTI FSTO SSTP MDP LOCK FOK DFCT MIRR COUT WDCK

– 5 –

CXD2588Q/R

Pin Description

CXD 2588Q

Symbol

Output values

Description

Sub Q 80-bit, PCM peak and level data outputs. CD TEXT data output.

SQSO readout clock input. Sub Q P to W serial output. SBSO readout clock input. System reset. Reset when low. Mute input. Muted when high. Serial data input from CPU. Latch input from CPU. Serial data is latched at the falling edge. Serial data transfer clock input from CPU. SENS output to CPU. SENS serial data readout clock input. Spindle motor external control input. Digital power supply. Digital power supply. Anti-shock input/output. Microcomputer extension interface (input A) Microcomputer extension interface (input B) Microcomputer extension interface (output) WFCK output. XUGF output. MINT1 or RFCK is output by switching with the command. XPCK output. MNT0 is output by switching with the command. GFS output. MNT3 or XROF is output by switching with the command. C2PO output. GTOP is output by switching with the command. Outputs a high signal when either subcode sync S0 or S1 is detected.

4.2336MHz output. In CAV-W mode, 1/4 frequency division output for VCKI. Word clock output. f = 2Fs. Track count signal input/output. Mirror signal input/output. Defect signal input/output. Focus OK signal input/output. GFS is sampled at 460Hz; when GFS is high, this pin outputs a

high signal. If GFS is low eight consecutive samples, this pin outputs low. Or input when LKIN = 1.

Spindle motor servo control output. Disc innermost track detection signal input. 2/3 frequency division output for XTAI pin.

1, 0

— —

1, 0

1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0

1, 0

1, Z, 0

1, 0

O

I

O

I I I I I I

O

I

I — —

I/O

I

O O O O O O O O

O I/O I/O I/O I/O

I/O

O

I

O

SQSO SQCK

SBSO EXCK XRST SYSM DATA XLAT CLOK SENS SCLK PWMI VDD VDD ATSK SPOA SPOB XLON WFCK XUGF XPCK GFS C2PO SCOR C4M WDCK COUT MIRR DFCT FOK

LOCK

MDP SSTP FSTO

3 4

5 6 7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

33

34 35 36

1 2

3 4 5 6 7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30

31

32 33 34

I/O

CXD 2588R

Pin No.

– 6 –

CXD2588Q/R

CXD 2588Q

Symbol

Output values

Description

2/3 frequency division input for XTAI pin. Sled drive output. Sled drive output. Tracking drive output. Tracking drive output. Focus drive output. Focus drive output. Digital GND. Digital GND. Test pin. Normally, GND. Test pin. Normally, GND. Crystal selection input. Low when the crystal is 16.9344MHz; high

when the crystal is 33.8688MHz. Center voltage input. Focus error signal input. Sled error signal input.

Tracking error signal input. Center servo analog input. RF signal input. Test pin. No connected. Analog GND. Operational amplifier constant current input. Analog power supply. EFM full-swing output. (low = Vss, high = VDD) Asymmetry comparator voltage input. Asymmetry circuit constant current input. EFM signal input. Analog GND. Multiplier VCO1 control voltage input. Master PLL filter output. (slave = digital PLL) Master PLL filter input. Master PLL charge pump output. Analog power supply. Wide-band EFM PLL VCO2 control voltage input. Wide-band EFM PLL VCO2 oscillation input.

1, 0 1, 0 1, 0 1, 0 1, 0 1, 0

— —

Analog

—

1, 0

—

Analog

1, Z, 0

—

I O O O O O O

— —

I

I O

—

I

—

O

I

—

I O

—

I

FSTI SFDR SRDR TFDR TRDR FFDR FRDR VSS VSS TEST TES1

XTSL VC

FE SE NC TE CE RFDC ADIO AVSS0 IGEN AVDD0 ASYO ASYI BIAS RFAC AVSS3 CLTV FILO FILI PCO AVDD3 VCTL VCKI

37 38 39 40 41 42 43 44 45 46 47

48 49

50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71

35 36 37 38 39 40 41 42 43 44 45

46 47

48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69

I/O

CXD 2588R

Pin No.

– 7 –

CXD2588Q/R

CXD 2588Q

Symbol

Output values

Description

Wide-band EFM PLL VCO2 oscillation output. Wide-band EFM PLL charge pump output. Digital GND. Test pin. Normally GND. Digital power supply. Digital Out output. D/A interface. LR clock output f = Fs. D/A interface. LR clock input. D/A interface. Serial data output.

(two's complement, MSB first) D/A interface. Serial data input.

(two's complement, MSB first) D/A interface. Bit clock output. D/A interface. Bit clock input. Outputs a high signal when the playback disc has emphasis, and a

low signal when there is no emphasis. Inputs a high signal when de-emphasis is on, and a low signal when

de-emphasis is off. Master clock power supply. Crystal oscillation circuit input. Master clock is externally input from

this pin. Crystal oscillation circuit output. Master clock GND. Analog power supply. L ch analog output. L ch operational amplifier input. L ch LINE output. Analog GND. Analog GND. R ch LINE output. R ch operational amplifier output. R ch analog output. Analog power supply. R ch zero detection flag. L ch zero detection flag.

1, 0

1, Z, 0

—

— 1, 0 1, 0

1, 0

—

— 1, 0 1, 0

O O

—

I

—

O O

I

O

I

O

I

O

I

—

I

O — —

O

I

O — —

O

I

O —

O

V16M VPCO VSS TES2 VDD DOUT LRCK KRCKI

PCMD

PCMDI BCK

BCKI EMPH

EMPHI XVDD XTAI XTAO

XVSS AVDD1 AOUT1 AIN1 LOUT1 AVSS1 AVSS2 LOUT2 AIN2 AOUT2 AVDD2 RMUT LMUT NC

72 73 74 75 76 77 78 79

80

81 82

83 84

85 86 87 88

89 90 91 92 93 94 95 96 97 98 99

100

1 2

70 71 72 73 74 75 76 77

78

79 80

81 82

83 84 85 86

87 88 89 90 91 92 93 94 95 96 97 98 99

100

I/O

CXD 2588R

Pin No.

– 8 –

CXD2588Q/R

Notes) • PCMD is a MSB first, two's complement output.

• GTOP is used to monitor the frame sync protection status. (High: sync protection window released.)

• XUGF is the frame sync obtained from the EFM signal, and is negative pulse. It is the signal before

sync protection.

• XPCK is the inverse of the EFM PLL clock. The PLL is designed so that the falling edge and the EFM signal transition point coincide.

• The GFS signal goes high when the frame sync and the insertion timing match.

• RFCK is derived from the crystal accuracy, and has a cycle of 136µs.

• C2PO represents the data error status.

• XROF is generated when the 16K RAM exceeds the ±4F jitter margin.

Monitor Pin Output Combinations

0 0 1

MTSL1

0 1 0

MTSL0

XUGF MNT1 RFCK

XPCK MNT0 XPCK

GFS MNT3 XROF

C2PO C2PO GTOP

Command bit

Output data

– 9 –

CXD2588Q/R

Electrical Characteristics

1. DC Characteristics (VDD = AVDD = 5.0V ± 5%, VSS = AVSS = 0V, Topr = –20 to +75°C)

Applicable pins

∗1

SYSM, DATA, XLAT, PWMI, SSTP, FSTI, XTSL, TEST, TES1, VCKI, TES2

∗2

SQCK, XRST, CLOK

∗3

LRCKI, PCMDI, BCKI, EMPHI

∗4

ASYI, RFAC, CLTV, FILI, VCTL

∗5

SQSO, SBSO, SENS, ATSK, XLON, WFCK, XUGF, XPCK, GFS, C2PO, SCOR, C4M, WDCK, COUT, MIRR, DFCT, FOK, LOCK, FSTO, SFDR, SRDR, TFDR, TRDR, FFDR, FRDR, ASYO, DOUT, LRCK, PCMD, BCK, EMPH, RMUT, LMUT

∗6

V16M

∗7

MDP, PCO, VPCO

∗8

FILO

∗9

VC, FE, SE, TE, CE

∗10

RFDC

∗11

EXCK, ATSK, COUT, MIRR, DFCT, FOK, LOCK

∗12

SCLK, SPOA, SPOB

Item

Input voltage (1)

Input voltage (2)

Input voltage (3)

Input voltage (4)

Output Avoltage (1)

Output Avoltage (2)

Output Avoltage (3)

Output Avoltage (4)

Input leak current (1)

Input leak current (2) Input leak current (3)

Input leak current (4)

∗1, ∗11

∗2, ∗12

∗3

∗4, ∗9, ∗10

∗5

∗6

∗7

∗1, ∗2

∗11, ∗12 ∗9

∗10

∗8

Schmitt input

Analog input IOH = –2mA

IOL = 4mA IOH = –4mA IOL = 8mA IOH = –6mA IOL = 4mA IOH = –0.28mA IOL = 0.36mA VIN = VSS

or VDD VIN = VSS

or VDD VI = 1.5 to 3.5V VI = 0 to 5.0V

High level input voltage Low level input voltage High level input voltage Low level input voltage High level input voltage Low level input voltage

Input voltage High level output voltage

Low level output voltage High level output voltage Low level output voltage High level output voltage Low level output voltage High level output voltage Low level output voltage

VIH (1) VIL (1) VIH (2) VIL (2) VIH (3) VIL (3)

VIN (4) VOH (1)

VOL (1) VOH (2) VOL (2) VOH (3) VOL (3) VOH (4) VOL (4)

ILI (1)

ILI (2) ILI (3)

ILI (4)

0.7VDD

0.8VDD

Vss

VDD – 0.8

Vss

VDD – 0.8

Vss

VDD – 0.8

Vss

VDD – 0.5

Vss –10

–40 –20

–40

0.3VDD

0.2VDD

0.2VDD VDD VDD

0.4

VDD

0.4

VDD

0.4

VDD

0.4 10

40 20

600

V V V V V V

V V

V V V V V V V

µA

µA µA

µA

Conditions Min. Typ. Max. Unit

Applicable pins

– 10 –

CXD2588Q/R

2. AC Characteristics (1) XTAI pin

(a) When using self-excited oscillation

(Topr = –20 to +75°C, VDD = AVDD = 5.0V ± 5%)

(b) When inputting pulses to XTAI pin

(Topr = –20 to +75°C, VDD = AVDD = 5.0V ± 5%)

(c) When inputting sine waves to XTAI pin via a capacitor

(Topr = –20 to +75°C, VDD = AVDD = 5.0V ± 5%)

Oscillation frequency

fMAX

7

34

MHz

Item Symbol Min. Typ. Max.

Unit

High level pulse width

tWHX

13 500

ns

Low level pulse width

tWLX

13 500

ns

Pulse cycle

tCK

26 1,000

ns

Input high level VIHX VDD – 1.0

V

Input low level VILX 0.8

V

Rise time, fall time

tR, tF

10

ns

Item Symbol Min.

Typ. Max. Unit

Input amplitude VI 2.0 VDD + 0.3 Vp-p

Item Symbol Min.

Typ. Max. Unit

tR tF

tWHX

tWLX

tCX

VILX

VIHX × 0.1

V

IHX × 0.9

VIHX

XTAI

V

DD/2

– 11 –

CXD2588Q/R

(2) CLOK, DATA, XLAT, COUT, SQCK, and EXCK pins

(VDD = AVDD = 5.0V ± 5%, VSS = AVSS = 0V, Topr = –20 to +75°C)

Note) In quasi double-speed playback mode, except when SQSO is Sub Q Read, the SQCK maximum

operating frequency is 300kHz and its minimum pulse width is 1.5µs.

(3) BCKI, LRCKI and PCMDI pins (VDD = AVDD = 5.0V ± 5%, VSS = AVSS = 0V, Topr = –20 to +75°C)

Clock frequency Clock pulse width Setup time Hold time Delay time Latch pulse width EXCK, SQCK frequency EXCK, SQCK pulse width

fCK

tWCK tSU tH tD tWL

fT fWT

750 300 300 300 750

750

Note)

0.65

Note)

MHz

ns ns ns ns ns

MHz

ns

Item Symbol

Min. Typ. Max. Unit

tWCK tWCK

1/fCK

tH

tSU

tWL

tD

1/fT

tWT tWT

tH

tSU

CLOK

DATA

XLAT

EXCK

SQCK

SBSO

SQSO

BCK pulse width DATAL, R setup time DATAL, R hold time LRCK setup time

tW tSU tH tSU

ns ns ns ns

Item Symbol

Conditions

Typ.

94 18 18 18

Min.

Max.

Unit

VDD/2 VDD/2

tW(BCKI)tW(BCKI)

tSU

(PCMDI)

t

H

(PCMDI)

tSU

(LRCKI)

BCKI

PCMDI

LRCKI

– 12 –

CXD2588Q/R

(5) COUT, MIRR and DFCT pins Operating frequency (VDD = AVDD = 5.0V ±5%, VSS = AVSS = 0V, Topr = –20 to +75°C)

COUT maximum operating frequency

MIRR maximum operating frequency

DFCT maximum operating frequency

fCOUT

fMIRR

fDFCTH

40

5

kHz

∗1

∗2

∗3

Item Symbol

Min. Typ.

Max.

Unit

Conditions

∗1

When using a high-speed traverse TZC

∗2

When the RF signal continuously satisfies the following conditions during the above traverse.

• A = 0.12VDD to 0.26VDD

• = 25%

∗3

During complete RF signal omission When settings related to DFCT signal generation are Typ.

(4) SCLK pin

SCLK frequency SCLK pulse width Delay time

fSCLK

tSPW tDLS

31.3 15

16 MHz

ns

µs

Item

Symbol Min. Typ. Max.

Unit

tSPWtDLS

1/fSCLK

MSB LSB•••

•••

XLAT

SCLK

Serial Read Out Data

(SENS)

A

B

A + B

– 13 –

CXD2588Q/R

1-bit DAC and LPF Block Analog Characteristics

Analog characteristics (VDD = AVDD = 5.0V, VSS = AVSS = 0V, Ta = 25°C)

Fs = 44.1kHz in all cases. The total harmonic distortion and signal-to-noise ratio measurement circuits are shown below.

LPF external circuit diagram

Block diagram of analog characteristics measurement

Item

Total harmonic distortion

Signal-to-noise ratio

Symbol

THD

S/N

Conditions

1kHz, 0dB data

Crystal

1kHz, 0dB data (Using A-weighting filter)

384Fs 768Fs 384Fs 768Fs

96 96

0.0050

0.0045 100 100

0.0070

0.0065

Min.

Typ.

Max.

Unit

%

dB

Audio Analyzer

SHIBASOKU (AM51A)

100k

22µ

680p

12k

150p

AOUT1 (2)

AIN1 (2)

LOUT1 (2)

Audio Analyzer

CXD2588Q/R

Rch A

Lch B

DATA RF

TEST DISC

768Fs/384Fs

– 14 –

CXD2588Q/R

(VDD = AVDD = 5.0V, VSS = AVSS = 0V, Topr = –20 to +75°C)

Output voltage Load resistance

VOUT RL

∗1 ∗1

Vrms

kΩ

Item Symbol

8

Min.

Max.

1.12

Typ.

Applicable pins

Unit

∗

Measurement is conducted for the LPF external circuit diagram with the sine wave output of 1kHz and 0dB.

Applicable pins

∗1

LOUT1, LOUT2

– 15 –

CXD2588Q/R

Contents

§1. CPU Interface

§1-1. CPU Interface Timing ........................................................................................................................ 16

§1-2. CPU Interface Command Table ........................................................................................................16

§1-3. CPU Command Presets .................................................................................................................... 26

§1-4. Description of SENS Signals and Commands ................................................................................... 31

§2. Subcode Interface

§2-1. P to W Subcode Readout .................................................................................................................. 51

§2-2. 80-bit Sub Q Readout ........................................................................................................................ 51

§3. Description of Modes

§3-1. CLV-N Mode ...................................................................................................................................... 56

§3-2. CLV-W Mode ..................................................................................................................................... 56

§3-3. CAV-W Mode ..................................................................................................................................... 56

§4. Description of Other Functions

§4-1. Channel Clock Regeneration by the Digital PLL Circuit .................................................................... 58

§4-2. Frame Sync Protection ...................................................................................................................... 60

§4-3. Error Correction ................................................................................................................................. 60

§4-4. DA Interface ....................................................................................................................................... 61

§4-5. Digital Out .......................................................................................................................................... 63

§4-6. Servo Auto Sequence ....................................................................................................................... 63

§4-7. Digital CLV ......................................................................................................................................... 70

§4-8. CD-DSP Block Playback Speed ........................................................................................................ 71

§4-9. DAC Block Playback Speed .............................................................................................................. 71

§4-10. DAC Block Input Timing .................................................................................................................... 72

§4-11. Description of DAC Block Functions .................................................................................................. 72

§4-12. LPF Block .......................................................................................................................................... 76

§4-13. Asymmetry Compensation ................................................................................................................ 77

§4-14. CD Text Data Demodulation .............................................................................................................. 78

§5. Description of Servo Signal Processing System Functions and Commands

§5-1. General Description of Servo Signal Processing System .................................................................. 80

§5-2. Digital Servo Block Master Clock (MCK) ........................................................................................... 81

§5-3. AVRG Measurement and Compensation .......................................................................................... 81

§5-4. E:F Balance Adjustment Function ..................................................................................................... 83

§5-5. FCS Bias Adjustment Function .......................................................................................................... 83

§5-6. AGCNTL Function ............................................................................................................................. 85

§5-7. FCS Servo and FCS Search .............................................................................................................87

§5-8. TRK and SLD Servo Control .............................................................................................................88

§5-9. MIRR and DFCT Signal Generation .................................................................................................. 89

§5-10. DFCT Countermeasure Circuit .......................................................................................................... 90

§5-11. Anti-Shock Circuit .............................................................................................................................. 90

§5-12. Brake Circuit ...................................................................................................................................... 91

§5-13. COUT Signal ..................................................................................................................................... 92

§5-14. Serial Readout Circuit ........................................................................................................................ 92

§5-15. Writing to the Coefficient RAM .......................................................................................................... 93

§5-16. PWM Output ...................................................................................................................................... 93

§5-17. Servo Status Changes Produced by the LOCK Signal ..................................................................... 95

§5-18. Description of Commands and Data Sets ......................................................................................... 95

§5-19. List of Servo Filter Coefficients ........................................................................................................ 110

§5-20. Filter Composition ............................................................................................................................ 112

§5-21. TRACKING and FOCUS Frequency Response .............................................................................. 119

§6. Application Circuit .................................................................................................................................. 120

Explanation of abbreviations AVRG: Average

AGCNTL: Auto gain control FCS: Focus TRK: Tracking SLD: Sled DFCT: Defect

– 16 –

CXD2588Q/R

§1. CPU Interface

§1-1. CPU Interface Timing

• CPU interface

This interface uses DATA, CLOK and XLAT to set the modes. The interface timing chart is shown below.

• The internal registers are initialized by a reset when XRST = 0. Note) Be sure to set SQCK to high when XLAT is low.

§1-2. CPU Interface Command Table

Total bit length for each register

Register

0 to 2

3

4 to 6

7 8

9 A B C D E

8 bits

8 to 24 bits

8 bits 20 bits 28 bits 24 bits 28 bits 16 bits

8 bits 16 bits 20 bits

Total bit length

750ns or more

D18 D19 D20 D21 D22 D23

750ns or more

Valid

CLOK

DATA

XLAT

Registers

D0 D1

– 17 –

CXD2588Q/R

Command Table ($0X to 1X)

FOCUS SERVO ON

(FOCUS GAIN

NORMAL)

FOCUS SERVO ON

(FOCUS GAIN

DOWN)

FOCUS SERVO OFF,

0V OUT

FOCUS SERVO OFF,

FOCUS SEARCH

VOLTAGE OUT

FOCUS SEARCH

VOLTAGE DOWN

FOCUS SEACH

VOLTAGE UP

ANTI SHOCK ON

ANTI SHOCK OFF

BRAKE ON

BRAKE OFF

TRACKING GAIN

NORMAL

TRACKING GAIN UP

FILTER SELECT 1

TRACKING GAIN UP

FILTER SELECT 2

1

0

1

0

—

0

1

—

0

—

1

0

—

0

1

—

0

1

—

0

1

—

1

0

—

0

1

0 0 0 0

0 0 0 1

FOCUS

CONTROL

TRACKING

CONTROL

Register

Command

Address

D23 to D20

Data 1

D19 D18 D17 D16

Data 2

D15 D14 D13 D12

Data 3

D11 D10 D9 D8

Data 4

D7 D6 D5 D4

Data 5

D3 D2 D1 D0

—: Don’t care

– 18 –

CXD2588Q/R

Command Table ($2X to 3X)

TRACKING SERVO OFF

TRACKING SERVO ON

FORWARD TRACK JUMP

REVERSE TRACK JUMP

SLED SERVO OFF

SLED SERVO ON

FORWARD SLED MOVE

REVERSE SLED MOVE

SLED KICK LEVEL

(±1 × basic value) (Default)

SLED KICK LEVEL

(±2

×

basic value)

SLED KICK LEVEL

(±3

×

basic value)

SLED KICK LEVEL

(±4

×

basic value)

0

1

—

0

1

0

1

0

1

—

0

1

0

1

—

0

1

—

0

1

0

1

—

2

3

0 0 1 0

0 0 1 1

TRACKING

MODE

SELECT

Register

Command

Address

D23 to D20

Register

Command

Address

D23 to D20

Data 1

D19 D18 D17 D16

Data 1

D19 D18 D17 D16

Data 2

D15 D14 D13 D12

Data 2

D15 D14 D13 D12

Data 3

D11 D10 D9 D8

Data 4

D7 D6 D5 D4

Data 5

D3 D2 D1 D0

Data 3

D11 D10 D9 D8

Data 4

D7 D6 D5 D4

Data 5

D3 D2 D1 D0

—: Don’t care

– 19 –

CXD2588Q/R

Command Table ($340X)

KRAM DATA (K00)

SLED INPUT GAIN

KRAM DATA (K01)

SLED LOW BOOST FILTER A-H

KRAM DATA (K02)

SLED LOW BOOST FILTER A-L

KRAM DATA (K03)

SLED LOW BOOST FILTER B-H

KRAM DATA (K04)

SLED LOW BOOST FILTER B-L

KRAM DATA (K05)

SLED OUTPUT GAIN

KRAM DATA (K06)

FOCUS INPUT GAIN

KRAM DATA (K07)

SLED AUTO GAIN

KRAM DATA (K08)

FOCUS HIGH CUT FILTER A

KRAM DATA (K09)

FOCUS HIGH CUT FILTER B

KRAM DATA (K0A)

FOCUS LOW BOOST FILTER A-H

KRAM DATA (K0B)

FOCUS LOW BOOST FILTER A-L

KRAM DATA (K0C)

FOCUS LOW BOOST FILTER B-H

KRAM DATA (K0D)

FOCUS LOW BOOST FILTER B-L

KRAM DATA (K0E)

FOCUS PHASE COMPENSATE FILTER A

KRAM DATA (K0F)

FOCUS DEFECT HOLD GAIN

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

KD7

KD6

KD5

KD4

KD3

KD2

KD1

KD0

3 0 0 1 1 0 1 0 0 0 0 0 0

SELECT

Register

Command

Address 1

D23 to D20

Address 2

D19 to D16

Address 3

D15 to D12

Address 4

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D1 D0

– 20 –

CXD2588Q/R

Command Table ($341X)

KRAM DATA (K10)

FOCUS PHASE COMPENSATE FILTER B

KRAM DATA (K11)

FOCUS OUTPUT GAIN

KRAM DATA (K12)

ANTI SHOCK INPUT GAIN

KRAM DATA (K13)

FOCUS AUTO GAIN

KRAM DATA (K14)

HPTZC / AUTO GAIN HIGH PASS FILTER A

KRAM DATA (K15)

HPTZC / AUTO GAIN HIGH PASS FILTER B

KRAM DATA (K16)

ANTI SHOCK HIGH PASS FILTER A

KRAM DATA (K17)

HPTZC / AUTO GAIN LOW PASS FILTER B

KRAM DATA (K18)

FIX

KRAM DATA (K19)

TRACKING INPUT GAIN

KRAM DATA (K1A)

TRACKING HIGH CUT FILTER A

KRAM DATA (K1B)

TRACKING HIGH CUT FILTER B

KRAM DATA (K1C)

TRACKING LOW BOOST FILTER A-H

KRAM DATA (K1D)

TRACKING LOW BOOST FILTER A-L

KRAM DATA (K1E)

TRACKING LOW BOOST FILTER B-H

KRAM DATA (K1F)

TRACKING LOW BOOST FILTER B-L

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

KD7

KD6

KD5

KD4

KD3

KD2

KD1

KD0

3 0 0 1 1 0 1 0 0 0 0 0 1

SELECT

Register

Command

Address 1

D23 to D20

Address 2

D19 to D16

Address 3

D15 to D12

Address 4

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D1 D0

– 21 –

CXD2588Q/R

Command Table ($342X)

KRAM DATA (K20)

TRACKING PHASE COMPENSATE FILTER A

KRAM DATA (K21)

TRACKING PHASE COMPENSATE FILTER B

KRAM DATA (K22)

TRACKING OUTPUT GAIN

KRAM DATA (K23)

TRACKING AUTO GAIN

KRAM DATA (K24)

FOCUS GAIN DOWN HIGH CUT FILTER A

KRAM DATA (K25)

FOCUS GAIN DOWN HIGH CUT FILTER B

KRAM DATA (K26)

FOCUS GAIN DOWN LOW BOOST FILTER A-H

KRAM DATA (K27)

FOCUS GAIN DOWN LOW BOOST FILTER A-L

KRAM DATA (K28)

FOCUS GAIN DOWN LOW BOOST FILTER B-H

KRAM DATA (K29)

FOCUS GAIN DOWN LOW BOOST FILTER B-L

KRAM DATA (K2A)

FOCUS GAIN DOWN PHASE COMPENSATE FILTER A

KRAM DATA (K2B)

FOCUS GAIN DOWN DEFECT HOLD GAIN

KRAM DATA (K2C)

FOCUS GAIN DOWN PHASE COMPENSATE FILTER B

KRAM DATA (K2D)

FOCUS GAIN DOWN OUTPUT GAIN

KRAM DATA (K2E)

NOT USED

KRAM DATA (K2F)

NOT USED

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

KD7

KD6

KD5

KD4

KD3

KD2

KD1

KD0

3 0 0 1 1 0 1 0 0 0 0 1 0

SELECT

Register

Command

Address 1

D23 to D20

Address 2

D19 to D16

Address 3

D15 to D12

Address 4

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D1 D0

– 22 –

CXD2588Q/R

Command Table ($343X)

KRAM DATA (K30)

SLED INPUT GAIN (when SFSK = 1 TG up2)

KRAM DATA (K31)

ANTI SHOCK LOW PASS FILTER B

KRAM DATA (K32)

NOT USED

KRAM DATA (K33)

ANTI SHOCK HIGH PASS FILTER B-H

KRAM DATA (K34)

ANTI SHOCK HIGH PASS FILTER B-L

KRAM DATA (K35)

ANTI SHOCK FILTER COMPARATE GAIN

KRAM DATA (K36)

TRACKING GAIN UP2 HIGH CUT FILTER A

KRAM DATA (K37)

TRACKING GAIN UP2 HIGH CUT FILTER B

KRAM DATA (K38)

TRACKING GAIN UP2 LOW BOOST FILTER A-H

KRAM DATA (K39)

TRACKING GAIN UP2 LOW BOOST FILTER A-L

KRAM DATA (K3A)

TRACKING GAIN UP2 LOW BOOST FILTER B-H

KRAM DATA (K3B)

TRACKING GAIN UP2 LOW BOOST FILTER B-L

KRAM DATA (K3C)

TRACKING GAIN UP PHASE COMPENSATE FILTER A

KRAM DATA (K3D)

TRACKING GAIN UP PHASE COMPENSATE FILTER B

KRAM DATA (K3E)

TRACKING GAIN UP OUTPUT GAIN

KRAM DATA (K3F)

NOT USED

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

KD7

KD6

KD5

KD4

KD3

KD2

KD1

KD0

3 0 0 1 1 0 1 0 0 0 0 1 1

SELECT

Register

Command

Address 1

D23 to D20

Address 2

D19 to D16

Address 3

D15 to D12

Address 4

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D1 D0

– 23 –

CXD2588Q/R

Command Table ($344X)

KRAM DATA (K40)

TRACKING HOLD FILTER INPUT GAIN

KRAM DATA (K41)

TRACKING HOLD FILTER A-H

KRAM DATA (K42)

TRACKING HOLD FILTER A-L

KRAM DATA (K43)

TRACKING HOLD FILTER B-H

KRAM DATA (K44)

TRACKING HOLD FILTER B-L

KRAM DATA (K45)

TRACKING HOLD FILTER OUTPUT GAIN

KRAM DATA (K46)

TRACKING HOLD INPUT GAIN (when THSK = 1 TG up2)

KRAM DATA (K47)

NOT USED

KRAM DATA (K48)

FOCUS HOLD FILTER INPUT GAIN

KRAM DATA (K49)

FOCUS HOLD FILTER A-H

KRAM DATA (K4A)

FOCUS HOLD FILTER A-L

KRAM DATA (K4B)

FOCUS HOLD FILTER B-H

KRAM DATA (K4C)

FOCUS HOLD FILTER B-L

KRAM DATA (K4D)

FOCUS HOLD FILTER OUTPUT GAIN

KRAM DATA (K4E)

NOT USED

KRAM DATA (K4F)

NOT USED

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

KD7

KD6

KD5

KD4

KD3

KD2

KD1

KD0

3 0 0 1 1 0 1 0 0 0 1 0 0

SELECT

Register

Command

Address 1

D23 to D20

Address 2

D19 to D16

Address 3

D15 to D12

Address 4

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D1 D0

– 24 –

CXD2588Q/R

Command Table ($34FX to 3FX)

0 0 1 1

1

0

1

0

1

FOCUS BIAS LIMIT

FOCUS BIAS DATA

TRVSC DATA

FOCUS SEARCH SPEED/

VOLTAGE/AUTO GAIN

DTZC/TRACK JUMP

VOLTAGE/AUTO GAIN

FZSL/SLED MOVE/

Voltage/AUTO GAIN

LEVEL/AUTO GAIN/

DFSW/ (Initialize)

SERIAL DATA READ

MODE/SELECT

FOCUS BIAS

Operation for MIRR/

DFCT/FOK

TZC/COUT

BOTTOM/MIRR

SLED FILTER

Filter

Others

3

0 0 1 1

0

1

0

1

0

1

0

FBL9

FB9

TV9

FBL8

FB8

TV8

FBL7

FB7

TV7

FBL6

FB6

TV6

FBL5

FB5

TV5

FBL4

FB4

TV4

FBL3

FB3

TV3

FBL2

FB2

TV2

FBL1

FB1

TV1

—

TV0

0

1

0

1

0

1

0

1

FT1

TDZC

FZSH

VCLM

DAC

0

SFO2

FT0

DTZC

FZSL

VCLC

SD6

FBON

SFO1

FS5

TJ5

SM5

FLM

SD5

FBSS

SDF2

FS4

TJ4

SM4

FLC0

SD4

FBUP

SDF1

FS3

TJ3

SM3

RFLM

SD3

FBV1

MAX2

FS2

TJ2

SM2

RFLC

SD2

FBV0

MAX1

FS1

TJ1

SM1

AGF

SD1

0

SFOX

FS0

TJ0

SM0

AGT

SD0

TJD0

BTF

FTZ

SFJP

AGS

DFSW

0

FPS1

D2V2

FG6

TG6

AGJ

LKSW

0

FPS0

D2V1

FG5

TG5

AGGF

TBLM

0

TPS1

D1V2

FG4

TG4

AGGT

TCLM

0

TPS0

D1V1

FG3

TG3

AGV1

FLC1

0

RINT

FG2

TG2

AGV2

TLC2

0

SJHD

0

FG1

TG1

AGHS

TLC1

0

INBK

0

FG0

TG0

AGHT

TLC0

0

MTI0

0

1

0

1

F1NM

0

F1DM

AGG4

F3NM

XT4D

F3DM

XT2D

T1NM

0

T1UM

DRR2

T3NM

DRR1

T3UM

DRR0

DFIS

0

TLCD

ASFG

0

FTQ

LKIN

LPAS

COIN

SRO1

MDFI

0

MIRI

AGHF

XT1D

ASOT

1

0

1

COSS

SFID

COTS

SFSK

CETZ

THID

CETF

THSK

COT2

0

COT1

TLD2

MOT2

TLD1

0

TLD0

BTS1

0

BTS0

0

MRC1

0

MRC0

0

SELECT

Register

Command

Address 1

D23 to D20 D19 D18 D17 D16

Address 2

D15 D14 D13 D12

Data 1

D11 D10 D9 D8

Data 2

D7 D6 D5 D4

Data 3

D3 D2 D1 D0

Address

D23 to D20 D19 D18 D17 D16

Data 1

D15 D14 D13 D12

Data 2

D11 D10 D9 D8

Data 3

D7 D6 D5 D4

Data 4

D3 D2 D1 D0

—: Don’t care

– 25 –

CXD2588Q/R

Instruction Table

Register

4

5

6

7

8

9

A

B

C

D

E

Auto sequence

Blind (A, E),

Overflow (C)

Brake (B)

KICK (D)

Auto sequence (N)

track jump

count setting

MODE

specification

Function

specification

Audio CTRL

Serial bus

CTRL

Spindle servo

coefficient setting

CLV CTRL

CLV mode

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

—

2048

VCO

SEL1

0

TRMI

—

VP7

EPWM

—

1024

0

TRMO

—

VP6

SPDC

—

512

SOCT

0

OPSL20OPSL2

1

MTSL1

—

VP5

ICAP

—

256

VCO

SEL2

SYCOF

EMPH

MTSL0

—

VP4

SFSL

—

128

KSL3

OPSL10OPSL1

1

SMUT

0

—

VP3

VC2C

—

64

KSL2

MCSL

0

—

VP2

HIFC

—

32

KSL1

0

AD9

0

—

VP1

LPWR

—

16

KSL0

0

AD8

0

—

VP0

VPON

—

8

0

ZDPL

AD7

—

Gain

CAV1

—

4

0

ZMUT

AD6

—

Gain

CAV0

—

2

VCO2

THRU

—

0

AD5

—

0

—

1

0

—

0

AD4

—

0

—

0

—

0

AD3

—

0

—

DCOF

AD2

—

0

—

0

AD1

—

0

—

0

AD0

—

TXON

—

FMUT

—

TXOUT

—

LRWO

—

OUTL1

—

BSBST

—

OUTL0

—

BBSL

—

AS3

0.18ms

0.36ms

11.6ms

32768

CDROM

0

SL1

Gain

MDP1

0

CM3

AS2

0.09ms

0.18ms

5.8ms

16384

DOUT

Mute

DSPB

ON/OFF

DSPB

ON/OFF

0

SL0

Gain

MDP0

TB

CM2

AS1

0.05ms

0.09ms

2.9ms

8192

DOUT

ON/OFF

0

Mute

CPUSR

Gain

MDS1

TP

CM1

AS0

0.02ms

0.05ms

1.45ms

4096

WSEL

0

ATT

0

Gain

MDS0

Gain

CLVS

CM0

Command

Address

D3 D2 D1 D0

Data 1

D3 D2 D1 D0

Data 2

D3 D2 D1 D0

Data 3

D3 D2 D1 D0

Data 4

D3 D2 D1 D0

Data 5

D3 D2 D1 D0

Data 6

D3 D2 D1 D0

– 26 –

CXD2588Q/R

FOCUS SERVO OFF,

0V OUT

TRACKING GAIN UP

FILTER SELECT 1

TRACKING SERVO OFF

SLED SERVO OFF

SLED KICK LEVEL

(±1 × basic value) (Default)

KRAM DATA

($3400XX to $344fXX)

0

1

0

—

0

1

2

0 0 0 0

0 0 0 1

0 0 1 0

FOCUS

CONTROL

TRACKING

CONTROL

TRACKING

MODE

Register

Command

Address

D23 to D20

Data 1

D19 D18 D17 D16

Data 2

D15 D14 D13 D12

Data 3

D11 D10 D9 D8

Data 4

D7 D6 D5 D4

Data 5

D3 D2 D1 D0

Register

Command

3 SELECT

Address

D23 to D20

0 0 1 1

0 0 1 1 0 1 0 0 0 See "Coefficient ROM Preset Values Table".

0 0 0 0 — — — — — — — —

—

— — — — — — —

Data 1

D19 D18 D17 D16

Data 2

D15 D14 D13 D12

Data 3

D11 D10 D9 D8

Data 4

D7 D6 D5 D4

Data 5

D3 D2 D0 D0

Address 1

D23 to D20 D19 D18 D17 D16

Address 2

D15 D14 D13 D12

Address 3

D11 D10 D9 D8

Data 1

D7 D6 D5 D4

Data 2

D3 D2 D0 D0

§1-3. CPU Command Presets

Command Preset Table ($0X to 34X)

—: Don’t care

– 27 –

CXD2588Q/R

Command Preset Table ($34FX to 3FX)

0 0 1 1

1

0

1

0

1

FOCUS BIAS LIMIT

FOCUS BIAS DATA

TRVSC DATA

FOCUS SEARCH SPEED/

VOLTAGE AUTO GAIN

DTZC/TRACK JUMP

VOLTAGE AUTO GAIN

FZSL/SLED MOVE/

Voltage/AUTO GAIN

LEVEL/AUTO GAIN/

DFSW/ (Initialize)

SERIAL DATA READ

MODE/SELECT

FOCUS BIAS

Operation for MIRR/

DFCT/FOK

TZC/COUT

BOTTOM/MIRR

SLED FILTER

3

0 0 1 1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

Filter

Others

1

0

1

0

SELECT

Register

Command

Address 1

D23 to D20 D19 D18 D17 D16

Address 2

D15 D14 D13 D12

Data 1

D11 D10 D9 D8

Data 2

D7 D6 D5 D4

Data 3

D3 D2 D1 D0

Address

D23 to D20 D19 D18 D17 D16

Data 1

D15 D14 D13 D12

Data 2

D11 D10 D9 D8

Data 3

D7 D6 D5 D4

Data 4

D3 D2 D1 D0

—: Don’t care

– 28 –

CXD2588Q/R

Reset Initialization

Register

4

5

6

7

8

9

A

B

C

D

E

Auto sequence

Blind (A, E),

Overflow (C)

Brake (B)

KICK (D)

Auto sequence (N)

track jump

count setting

MODE

specification

Function

specification

Audio CTRL

Serial bus

CTRL

Spindle servo

coefficient setting

CLV CTRL

CLV mode

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

—

0

—

1

0

—

0

1

—

1

0

—

0

—

1

0

—

1

0

—

0

—

0

—

0

—

0

1

0

—

0

—

0

1

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

0

—

Command

Address

D3 D2 D1 D0

Data 1

D3 D2 D1 D0

Data 2

D3 D2 D1 D0

Data 3

D3 D2 D1 D0

Data 4

D3 D2 D1 D0

Data 5

D3 D2 D1 D0

Data 6

D3 D2 D1 D0

– 29 –

CXD2588Q/R

ADDRESS

K00 K01 K02 K03 K04 K05 K06 K07 K08

K09 K0A K0B K0C K0D K0E

K0F

E0

81

23 7F 6A

10

14

30 7F

46

81 1C 7F

58

82 7F

SLED INPUT GAIN SLED LOW BOOST FILTER A-H SLED LOW BOOST FILTER A-L SLED LOW BOOST FILTER B-H SLED LOW BOOST FILTER B-L SLED OUTPUT GAIN FOCUS INPUT GAIN SLED AUTO GAIN FOCUS HIGH CUT FILTER A FOCUS HIGH CUT FILTER B FOCUS LOW BOOST FILTER A-H FOCUS LOW BOOST FILTER A-L FOCUS LOW BOOST FILTER B-H FOCUS LOW BOOST FILTER B-L FOCUS PHASE COMPENSATE FILTER A FOCUS DEFECT HOLD GAIN

K10 K11 K12 K13 K14 K15 K16 K17 K18

K19 K1A K1B K1C K1D K1E

K1F

K20

K21

K22

K23

K24

K25

K26

K27

K28

K29 K2A K2B K2C K2D K2E

K2F

4E

32 20 30 80 77 80 77

00 F1 7F 3B

81

44 7F 5E

FOCUS PHASE COMPENSATE FILTER B FOCUS OUTPUT GAIN ANTI SHOCK INPUT GAIN FOCUS AUTO GAIN HPTZC / Auto Gain HIGH PASS FILTER A HPTZC / Auto Gain HIGH PASS FILTER B ANTI SHOCK HIGH PASS FILTER A HPTZC / Auto Gain LOW PASS FILTER B Fix

∗

TRACKING INPUT GAIN TRACKING HIGH CUT FILTER A TRACKING HIGH CUT FILTER B TRACKING LOW BOOST FILTER A-H TRACKING LOW BOOST FILTER A-L TRACKING LOW BOOST FILTER B-H TRACKING LOW BOOST FILTER B-L

82

44

18

30 7F

46

81 3A 7F

66

82

44 4E 1B

00

TRACKING PHASE COMPENSATE FILTER A TRACKING PHASE COMPENSATE FILTER B TRACKING OUTPUT GAIN TRACKING AUTO GAIN FOCUS GAIN DOWN HIGH CUT FILTER A FOCUS GAIN DOWN HIGH CUT FILTER B FOCUS GAIN DOWN LOW BOOST FILTER A-H FOCUS GAIN DOWN LOW BOOST FILTER A-L FOCUS GAIN DOWN LOW BOOST FILTER B-H FOCUS GAIN DOWN LOW BOOST FILTER B-L FOCUS GAIN DOWN PHASE COMPENSATE FILTER A FOCUS GAIN DOWN DEFECT HOLD GAIN FOCUS GAIN DOWN PHASE COMPENSATE FILTER B FOCUS GAIN DOWN OUTPUT GAIN NOT USED NOT USED

DATA CONTENTS

∗

Fix indicates that normal preset values should be used.

– 30 –

CXD2588Q/R

ADDRESS

K30 K31 K32 K33 K34 K35 K36 K37 K38

K39 K3A K3B K3C K3D K3E K3F

80 66 00 7F 6E 20 7F 3B 80 44 7F 77 86

0D

57 00

SLED INPUT GAIN (Only when TRK Gain Up2 is accessed with SFSK = 1.) ANTI SHOCK LOW PASS FILTER B NOT USED ANTI SHOCK HIGH PASS FILTER B-H ANTI SHOCK HIGH PASS FILTER B-L ANTI SHOCK FILTER COMPARATE GAIN TRACKING GAIN UP2 HIGH CUT FILTER A TRACKING GAIN UP2 HIGH CUT FILTER B TRACKING GAIN UP2 LOW BOOST FILTER A-H TRACKING GAIN UP2 LOW BOOST FILTER A-L TRACKING GAIN UP2 LOW BOOST FILTER B-H TRACKING GAIN UP2 LOW BOOST FILTER B-L TRACKING GAIN UP PHASE COMPENSATE FILTER A TRACKING GAIN UP PHASE COMPENSATE FILTER B TRACKING GAIN UP OUTPUT GAIN NOT USED

K40

K41

K42

K43

K44

K45

K46

K47

K48

K49 K4A K4B K4C K4D K4E K4F

04 7F 7F 79 17

6D

00 00 02 7F 7F 79 17 54 00 00

TRACKING HOLD FILTER INPUT GAIN TRACKING HOLD FILTER A-H TRACKING HOLD FILTER A-L TRACKING HOLD FILTER B-H TRACKING HOLD FILTER B-L TRACKING HOLD FILTER OUTPUT GAIN TRACKING HOLD FILTER INPUT GAIN (Only when TRK Gain Up2 is a accessed with THSK = 1.) NOT USED FOCUS HOLD FILTER INPUT GAIN FOCUS HOLD FILTER A-H FOCUS HOLD FILTER A-L FOCUS HOLD FILTER B-H FOCUS HOLD FILTER B-L FOCUS HOLD FILTER OUTPUT GAIN NOT USED NOT USED

DATA CONTENTS