PANASONIC AN8725FH

ICs for Optical Disk Drive
AN8725FH
Semiconductor laser power control IC
■ Overview
Unit: mm
14.00±0.20
12.00±0.20
60
41
40
(1.25)
12.00±0.20
14.00±0.20
61
■ Features
21
0.50
20
0.18 +0.10
–0.05
Seating plane
(1.00)
+0.10
1
(1.25)
0.15 –0.05
80
0.90±0.10
1.95±0.20
• Digital setting of playback current, peak current, bias
current and abnormal light emitting level
• Peak current and bias current can be modulated by the
external signal.
• Driving current set-up (digital set-up)
For playback: 8-bit + 4-bit (0 mA to 80 mA)
5-bit + 4-bit (0 mA to 150 mA)
For peak: 4-bit + 8-bit (0 mA to 150 mA)
For bias: 4-bit + 8-bit (0 mA to 150 mA)
• Laser output light monitoring circuit built-in
• Abnormal light emitting detecting function built-in:
Possible to set up excessive and insufficient light emitting levels with 4-bit DAC for playback and recording,
respectively.
• Supply voltage abnormality detection:
Voltage down (3.9 V or less), voltage up (6.1 V or more)
0.90±0.10
0.10±0.10
The AN8725FH is a laser driver IC that can set a laser
emitting level to a maximum precision in recording and
playback of an optical recording equipment such as PD,
and can modulate a laser light in tune with the external
signal.
0° to 10°
0.50±0.20
QFP080-P-1212
■ Applications
• Optical disk drive
1
AN8725FH
ICs for Optical Disk Drive
AGND
PKMD
BIMD
RPHOLD
XWR
XRD
5
6
8
AD1
AD2
AD3
64
63
RDCP1
73
RDCP2
PKDCP
BIDCP
78
DAC7
43
Playback
current
DAC8
65
SW1
39
LPF1
38
LPF off
8
9
11
12
LPF91
LDRP
LPF12
LPF11
Peak
current
DAC2
SW2
Current
amplification
70 XLDPK
69
LDPK
Bias
current
DAC3
SW3
Current
amplification
75
XLDBI
74
LDBI
8
13
14
Control
logic
15
DT0
Shunt circuit
SW5
X1/SX2 changeover
AAF off
AAF RST
CTL SW6
16
I/V
conversion
Current
amplification
X1, X10
DAC1 DAC9 DAC4
DT1
17
DT2
AAF
Current source for DAC
18
SW6
Buffer
DT3
PS over
PS down
DT4
23
Supply voltage
monitoring
WPW over
WPW down
RPW over
RPW down
Sleep
24
DT6
25
DT7
4
26
XLDEN
Sleep circuit
Insufficient
light emission
DAC5
Abnormal
light
emitting
detection
27
XCLR
29
4
XLDERR
32
Excessive
light emission
DAC6
XHFON
37
RREF
57
DACMONI
55
ERREF
ERFIL 31
PWMSK 30
DAC56SW
Reference
voltage source
(1.25 V)
1
20
21
41
42
59
60
61
79
80
DT5
SGND
22
2
LPF92
Peak bias
current
DAC4
4
AD0
DAC8
LPF off
Playback
current
DAC1
8
DAC2
LPF9
4
4
DAC3
SW1
44
Playback
current
DAC9
54
RVCC
Playback
current
DAC7
4
5
68
62
IGND 40
35
RGND
BIGND
76
BIVCC
77
71
PKVCC
72
AVCC
58
45
PKGND
■ Block Diagram
51
IPD
50
IVIN
49
IVOUT
48
AAF
47
PWRMONI
46
DETMONI
56
VNR
36
VC
53
CVCC
52
CGND
34
DVCC
9
33
28
19
10
3
2
DGND
ICs for Optical Disk Drive
AN8725FH
■ Pin Descriptions
Note) Description on notations of "Category" in the following list:
IN : Input pin
I/O : Input/output pin (pull-down with 100 k Ω)
IND : Input pin (pull-down with 100 kΩ)
PS : Power supply/GND pin
INU : Input pin (pull-up with 100 kΩ)
MSC : Parts connecting pin, etc.
OUT: Output pin
A: Analog function
Pin No.
Symbol
1
SGND
D: Digital function
Category
PS
D
Description
Pin connected to the chip substrate.
Must be used in the same potential as other GND pins.
2
DGND
PS
D
GND pin exclusive for a logic circuit.
3
DGND
PS
D
Must be used in the same potential as other GND pins.
4
PKMD
IND
D
Peak current modulation signal input pin.
In high-level, the current set up with DAC2 is superimposed on LD.
5
BIMD
IND
D
Bias current modulation signal input pin.
In high-level, the current set up with DAC3 is superimposed on LD.
6
RPHOLD
IND
D
Record gate signal input pin.
Inputs a low-level in playback and a high-level in recording.
Switches an amp. of light monitoring signal, abnormally emitted light
detection level and on/off of HF module.
7
XWR
INU
D
Register writing signal pin.
Selects a register specified by address in a fall edge and writes a bus data
on the register of the address specified in the rise edge.
8
XRD
INU
D
Register read-out signal pin.
Register data of the address specified in low appears on the bus.
9
DVCC
PS
D
Power supply pin exclusive for a logic circuit.
Must be used in the same potential as other power supply pins.
10
DGND
PS
D
GND pin exclusive for a logic circuit.
Must be used in the same potential as other GND pins.
11
AD0
IND
D
4-bit address pin for registers.
12
AD1
IND
D
Selects the register to be accessed.
13
AD2
IND
D
14
AD3
IND
D
15
DT0
I/O
D
Data I/O 8-bit bus pin.
16
DT1
I/O
D
The bus to set the data to be written on a register and to read out the data
17
DT2
I/O
D
of a register.
18
DT3
I/O
D
19
DGND
PS
D
GND pin exclusive for a logic circuit.
Must be used in the same potential as other GND pins.
3
AN8725FH
ICs for Optical Disk Drive
■ Pin Descriptions (continued)
Pin No.
Symbol
Category
Description
20
SGND
PS
D
Pin connected to the chip substrate.
21
SGND
PS
D
Must be used in the same potential as other GND pins.
22
DT 4
I/O
D
Data I/O 8-bit bus pin.
23
DT 5
I/O
D
The bus to set the data to be written on a register and to read out the data
24
DT 6
I/O
D
of a register.
25
DT 7
I/O
D
26
XLDEN
INU
D
LD enable input pin.
In a high-level or open mode, LD becomes off and open. This state is suited
to check the LD characteristics in keeping a connection to the IC. At the
time power off, both ends of LD are short-circuited by the IC for protection.
In the low-level, it returns to a normal operation.
27
XCLR
IND
D
Clear signal input pin.
Sets an LDDENB register to "0" in the low-level and presets the status of
each DAC and each switch to an initial state as defined separately.
But six registers for an abnormal detection are not cleared. In this state,
each output of a current amplification 1, 2, 3 are in the off state and a
shunt circuit becomes on to continue to protect LD.
Setting this pin to the high-level and the LDDENB register to "1", it returns
to a normal operation.
28
DGND
PS
D
GND pin exclusive for a logic circuit.
Must be used in the same potential as other GND pins.
29
XLDERR
OUT
D
Laser abnormality detection output pin.
When a supply voltage or a laser light emission exceeds a fixed range, it
goes to low-level. A supply voltage abnormality is detected for the voltage drop (3.9 V or less) or voltage rise (6.1 V or more). And an abnormal
light emission is detected for an excessive or weaker light emission set up
by 4-bit DAC5 and DAC6. This abnormality detection is latched so as to
prevent it from being reset until ERRCLR register is set to "1".
Further, each DAC output of a playback current, a peak current and a bias
current can be set to off, a shunt circuit be set to on and LD between anode
and GND be short-circuited by 100 Ω so that LD can be protected. This
protection function is latched to keep it from being reset until ERRCLR is
set to "1". Selection of either operation or non-operation for this operation can be made by an STPMSK register.
30
PWMSK
MSC
D
The pin to set up the mask time for a transitional response output that
comes out at switching a detection level of excessive or insufficient light
emission by RPHOLD. Set a mask time by an external capacitor between
PWMSK and DGND and the resistor (10 kΩ) inside the IC. This pin is for
a schmitt-trigger input.
4
ICs for Optical Disk Drive
AN8725FH
■ Pin Descriptions (continued)
Pin No.
Symbol
31
ERFIL
Category
MSC
D
Description
Filter setting pin to avoid a detection error of laser abnormality caused
by noise.
Connect an external capacitor between ERFIL and DGND, and set a filter
together with a resistor (10 kΩ) inside the IC. This pin is for schmitt-trigger
input.
32
XHFON
OUT
D
HF module on/off control signal output pin.
High corresponds to off and low to on.
33
DGND
PS
D
GND pin exclusive to a logic circuit.
Must be used in the same potential as other GND pins.
34
DVCC
PS
D
Power supply pin exclusive to a logic circuit.
Must be used in the same potential as other power supply pins.
35
AGND
PS
A
GND pin exclusive to a analog circuit.
Must be used in the same potential as other GND pins.
36
VC
MSC
A
Output pin for reference voltage (1.25 V).
Connects a capacitor C between this pin and AGND for de-coupling.
37
RREF
MSC
A
Reference resistor connecting pin to determine an output current for each DAC.
Connect a resistor of 10 kΩ between RREF and AGND.
38
LPF11
MSC
A
LPF characteristic setting pin for DAC1 and DAC8.
39
LPF12
MSC
A
Connect an external resistor between LPF11 and LPF12, and then
capacitor between LPF12 and IGND to set up a cutoff frequency.
40
IGND
PS
A
GND pin for playback power supply setting DAC1, DAC9 and disturbance reduction LPF.
Must be used in the same potential as other GND pins.
41
SGND
PS
D
Pin connected to the chip substrate.
42
SGND
PS
D
Must be used in the same potential as other GND pins.
43
LPF91
MSC
A
LPF characteristic setting pin for DAC9 and DAC7.
44
LPF92
MSC
A
Connect an external resistor between LPF91 and LPF92 and then
capacitor between LPF92 and IGND to set a cutoff frequency.
45
AVCC
PS
A
Power supply pin for an analog circuit, a reference supply voltage circuit, etc.
Must be used in the same potential as other power supply pins.
46
DETMONI
OUT
A
Pin to monitor a signal for detecting abnormally emitted light.
In a playback mode, the signal output is five times that in recording
(ten times is posisible by a register setting). Has offset to VNR due to
being outputted through a buffer of transistors.
47
PWRMONI
OUT
A
Laser emitting light monitor signal.
In a low-level of RPHOLD, the amplifier output has 10 times gain
compared with recording, and is equipped with AFF.
5
AN8725FH
ICs for Optical Disk Drive
■ Pin Descriptions (continued)
Pin No.
Symbol
48
AAF
Category
MSC
A
Description
AAF characteristic setting pin for optical monitor circuit.
Connect an external resistor, capacitor between AAF and IVOUT and set
up a cutoff frequency.
49
IVOUT
OUT
A
I to V conversion signal output pin.
Connect an external variable resistor between IVIN and IVOUT.
50
IVIN
MSC
A
I to V conversion resistor connection pin.
Connect an external variable resistor between IVIN and IVOUT.
51
IPD
MSC
A
Pin photo diode (PD) connection pin.
Connect a pin photo diode for detecting a semiconductor laser emitting
light. Connect anode to this pin.
Applicable to a source-type PD which has a typical value of 40 µA to
160 µA output in object lens output power of 1 mW.
52
CGND
PS
A
GND pin in an optical monitor circuit.
Must be used in the same potential as other GND pins.
53
CVCC
PS
A
Power supply pin in an optical monitor circuit.
Must be used in the same potential as other power supply pins.
54
AGND
PS
A
GND pin exclusive to a analog circuit.
Must be used in the same potential as other GND pins.
55
ERREF
IN
A
Abnormally emitting light detecting range setting pin.
Sets a full scale voltage of DAC5 and DAC6.
A setting range is VNR or more and input range of an external ADC
or less.
56
VNR
IN
A
Reference level input pin for PWRMONI output.
Input a reference voltage of 1.25 V of an external ADC.
57
DACMONI
OUT
A
DAC5, DAC6 monitor pin.
DAC5 voltage is outputted when DAC56 SW register is low, DAC6
voltage is outputted when DAC6 voltage is high.
58
AVCC
PS
A
Power supply pin for an analog circuit, a reference supply voltage circuit, etc.
Must be used in the same potential as other power supply pins.
59
SGND
PS
D
Pin connected to the chip substrate.
60
SGND
PS
D
Must be used in the same potential as other GND pins.
61
SGND
PS
D
62
RGND
PS
A
GND pin for the lead current setting DAC7 and DAC8.
Must be used in the same potential as other GND pins.
63
RDCP1
MSC
A
Pin to connect a de-coupling capacitor to protect the output current of
DAC7, the read current setting circuit, from disturbance by a switching
noise such as peak current.
(Connects a capacitor between RDCP1 and RGND.)
6
ICs for Optical Disk Drive
AN8725FH
■ Pin Descriptions (continued)
Pin No.
Symbol
64
RDCP2
Category
MSC
A
Description
Pin to connect a de-coupling capacitor to protect the output current of
DAC7, the read current setting circuit, from disturbance by a switching
noise such as peak current.
(Connects a capacitor between RDCP2 and RGND.)
65
LDRP
OUT
A
Source type read current (DAC1, DAC7, DAC8, DAC9) output pin.
Possible to set up the range of 0 mA to 150 mA in the precision of 8-bit
+ 4-bit + 5-bit + 4-bit.
Output voltage range is 1.0 V to 3.5 V.
66
N.C.


N.C. pin.
67
N.C.


Open the pin or connect to GND.
68
RVCC
PS
A
Power supply pin for read current setting DAC7, DAC8.
Consumes approximately a quarter of the necessary read current.
Must be used in the same potential as other power supply pins.
69
LDPK
OUT
A
Source-type peak current (DAC2) output pin.
Possible to set the range of 0 mA to 150 mA in the accuracy of 8-bit.
The output voltage range is 1.0 V to 3.2 V.
70
XLDPK
IN
A
Sink-type peak current output pin.
Approximately three fourths of LDRK output current are outputted from
this pin.
71
PKGND
PS
A
GND pin of DAC2 in the peak current setting circuit.
Must be used in the same potential as other GND pins.
72
PKVCC
PS
A
DAC2 power supply pin in the peak current setting circuit.
Consumes approximately a quarter of the setting current.
Must be used in the same potential as other power supply pins.
73
PKDCP
MSC
A
Pin to connect a de-coupling capacitor to avoid the output current disturbance,
which is caused by a switching noise such as peak current, in peak current
setting circuit DAC2.
(Connects a capacitor between PKDCP and PKGND.)
74
LDBI
OUT
A
Source-type bias current (DAC3) output pin.
Possible to set the range of 0 mA to 150 mA in the accuracy of 8-bit.
Output voltage range is 1.0 V to 3.2 V.
75
XLDBI
IN
A
Sink-type peak current output pin.
Approximately three fourths of LDBI output current are outputted from
this pin.
76
BIGND
PS
A
GND pin of a bias current setting circuit DAC3.
Must be used in the same potential as other GND pins.
77
BIVCC
PS
A
Power supply pin of a bias current setting circuit DAC3.
Consumes approximately one fourth of a setting current.
Must be used in the same potential as other power supply pins.
7
AN8725FH
ICs for Optical Disk Drive
■ Pin Descriptions (continued)
Pin No.
Symbol
78
BIDCP
Category
MSC
A
Description
Pin to connect a de-coupling capacitor to avoid the output current disturbance,
which is caused by a switching noise such as bias current, of a bias current
setting circuit DAC3.
(Connects a capacitor between BIDCP and BIGND.)
79
SGND
PS
D
Pin connected to the chip substrate.
80
SGND
PS
D
Must be used in the same potential as other GND pins.
■ Absolute Maximum Ratings
Parameter
Symbol
Rating
Unit
Supply voltage
VCC
7.0
V
Input voltage
VIN
− 0.4 to VCC +0.4
V
Outoput voltage
VOUT
− 0.4 to VCC +0.4
V
Parts connecting pin voltage
VMSC
− 0.4 to VCC +0.4
V
ICC
80
mA
IPIN
−100 to +100
mA
PD
600
mW
Topr
−20 to +75
°C
Tstg
−55 to +150
°C
Supply current
Pin current
Power dissipation
*2
Operating ambient temperature
Storage temperature
*1
*1
Note) *1: Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25°C.
*2: The power dissipation shown is for the IC package in single unit at Ta = 75°C.
Refer to "■ Application Notes, 1. PD  Ta curves of QFP080-P-1212".
■ Recommended Operating Range
Parameter
Supply voltage
Symbol
Range
Unit
VCC
4.50 to 5.50
V
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Supply current
Supply current
ICC
XCLR = low, digital I/O pin = open,
IPD = 0 µA

20
30
mA
Sleep mode supply current
ISLP
Sleep = 1, IPD = 0 µA

3
4
mA
1.20
1.25
1.30
V
VCC = 4.5 V to 5.5 V, IREF = 0 mA


± 15
mV
VCC = 4.5 V to 5.5 V
IREF = −1 mA to + 1 mA


± 20
IREF = −1.5 mA,
difference from IREF = 0 mA


± 50
Reference voltage block
Reference voltage output
Reference voltage variation
Maximum output current
8
VREF
∆VREF
∆VOM
mV
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Digital block
High-level input voltage
VIH
To be applied to a digital input pin
0.8 ×
VCC


V
Low-level input voltage
VIL
To be applied to a digital input pin


0.2 ×
VCC
V
High-level input voltage
(Schmitt-trigger input)
VIHSHC To be applied to PWMSK, ERFIL pin
0.8 ×
VCC


V
Low-level input voltage
(Schmitt-trigger input)
VILSHC To be applied to PWMSK, ERFIL pin


0.2 ×
VCC
V
High-level output voltage
VOH
IOH = −2 mA
0.8 ×
VCC


V
Low-level output voltage
VOL1
IOL = +2 mA


0.2 ×
VCC
V
VOL2
IOL = +0.5 mA


0.4
Input pull-up, pull-down
resistance
RPD
Pull-up: VIL = 0 V
Pull-down: VIH = 5.0 V
75
100
125
kΩ
Input leak
ILKH
To be applied to a digital input pin,
VOH = 5.25 V


80
µA
ILKL
To be applied to a digital input pin,
VOL = 0 V


10
−15

15
−40
0
40
−15

15
VR1 = 1 kΩ, difference from an ideal
value at IPD = 100 µA to 2 000 µA
−20
0
20
GPMR /GPMW ,
output = VNR +0.6 V to 2.0 V
9.0
10.0
11.0
times

V
Entire optical monitor
Offset voltage at playback
VPMOFR VR1 = 1 kΩ, IPD = 0 mA
VR1 = 1 kΩ, difference from an ideal
value at IPD = 100 µA to 200 µA
Offset voltage at recording
Gain ratio
VPMOFW VR1 = 1 kΩ, IPD = 0 mA
GR
VCC × VCC ×
0.73 0.78
mV
mV
Maximum output voltage
VPM max
Minimum output voltage
VPM min


VNR−
0.015
V
f characteristics at playback
fPMR AAF AAF-off VR1 = 1 kΩ,
−3 dB, IPD = 100 µA to 200 µA
OFF
4
6

MHz
6
7.5

MHz
f characteristics at recording
fPMW
VR1 = 1 kΩ,
−3 dB, IPD = 100 µA to 2 000 µA
Settling time at playback
tPMSETR VR1 = 1 kΩ, error ±0.5%,
output variation: Range of 0 V to 2 V

200
400
ns
Settling time at recording
tPMSETW VR1 = 1 kΩ, error ±0.5%,
output variation: Range of 0 V to 2 V

200
400
ns
9
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Current amplification changeover
Gain at playback
GIPDR
Reg7 = "80h", IPD = 40 µA to 240 µA
9.0
10.0
11.0
times
Gain at recording
GIPDW
Reg7 = "C0h", IPD = 200 µA to 3 200 µA
0.9
1.0
1.1
times
Gain ratio
GRIPD
GIPDR /GIPDW
9.0
10.0
11.0
times
VIVOF
VR1 = 0 Ω, IPD = 0 mA
−15

15
mV
RES1

8

bit
Integral linearity error
EL1
−1.0

10.0
LSB
Differential linearity error
ED1
−1.0

1.5
LSB
Maximum output current
I1max
DAC1 = "FFh", DAC8 [Fh],
DAC7 [0h], DAC9 [00h]
70
80
90
mA
Offset current
I1OF1
"00h" LPF-on, DAC8 [Fh],
DAC7 [0h], DAC9 [00h],
DAC7, DAC8 characteristics included
−1

1
mA
I1OF2
"00h" LPF-off, DAC8 [Fh],
DAC7 [0h], DAC9 [00h]
−250

250
µA
0.95
1
1.05
times

400
800
ns
RES7

4

bit
Integral linearity error
EL7
−1.0

1.0
LSB
Differential linearity error
ED7
− 0.5

0.5
LSB
Maximum output current
I7max
Set to DAC7 = "Fh",
DAC9 [1Fh], DAC1 [00h], DAC8 [0h]
133
150
170
mA
Minimum output current
I7min
Set to DAC7 = "0h",
− 0.1
DAC9 [1Fh], DAC1 [00h], DAC8 [0h]
0
0.1
mA
Settling time
tSDA7
XWR ↑ to DAC7 [0h to Fh],
DAC9 [1Fh], ±0.5 LSB,
DAC1 [00h], DAC8 [0h]

50
500
ns
RES8

4

bit
Integral linearity error
EL8
−1.0

1.0
LSB
Differential linearity error
ED8
− 0.5

0.5
LSB
I to V conversion block
Offset voltage
DAC1 block
Resolution
LPF on/off gain ratio
Settling time
GRDAL GLPFON /GLPFOFF ,
input amplitude 0 V to 2 V
tSDA1
XWR ↑ to DAC1 [10h to 8Fh],
±2 LSB range, DAC7 [0h], DAC8 [Fh],
DAC9 [00h] LPF-off,
LPF11 pin open,
RDCP2 pin open
DAC7 block
Resolution
DAC8 block
Resolution
10
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Maximum output current
I8max
Set to DAC8 = "Fh",
DAC1 [FFh], DAC9 [1Fh], DAC7 [0h]
70
80
90
mA
Minimum output current
I8min
Set to DAC8 = "0h",
DAC1 [FFh], DAC9 [1Fh], DAC7 [0h]
4
5
6
mA
Settling time
tSDA8
XWR ↑ to DAC8 [0h to Fh],
DAC1 [80h], ±0.5 LSB,
DAC9 [00h], DAC7 [0h]

50
250
ns
RES2

8

bit
Integral linearity error
EL2
−1.0

5.0
LSB
Differential linearity error
ED2
−1.0

1.0
LSB
Maximum output current
I2max
DAC2 = "FFh", DAC4 [Fh]
133
150
170
mA
Offset current
I2OF
DAC2 = "00h", DAC4 [Fh]
− 0.1

0.1
mA
Settling time
tSDA2
XWR ↑ to DAC2 [10h to FFh],
±2.0 LSB, DAC4 [Fh]

100
250
ns
RES3

8

bit
Integral linearity error
EL3
−1.0

5.0
LSB
Differential linearity error
ED3
−1.0

1.0
LSB
Maximum output current
I3max
DAC3 = "FFh", DAC4 [Fh]
133
150
170
mA
Offset current
I3OF
DAC3 = "00h", DAC4 [Fh]
− 0.1

0.1
mA
Settling time
tSDA3
XWR ↑ to DAC3 [10h to FFh],
±2.0 LSB, DAC4 [Fh]

200
450
ns
RES4

4

bit
Integral linearity error
EL4
−1.0

1.0
LSB
Differential linearity error
ED4
−1.0

1.0
LSB
Maximum output current
I4max
DAC2 = "FFh", DAC4 [Fh]
133
150
170
mA
Offset current
I4OF
DAC2 = "00h", DAC4 [Fh]
− 0.1

0.1
mA
Settling time
tSDA4
XWR ↑ to DAC4 [0h to Fh],
±0.5 LSB, DAC2 [FFh]

300
600
ns
RES9

5

bit
Integral linearity error
EL9
−1.0

1.0
LSB
Differential linearity error
ED9
−1.0

1.0
LSB
Maximum output current
I9max
133
150
170
mA
DAC8 block (continued)
DAC2 block
Resolution
DAC3 block
Resolution
DAC4 block
Resolution
DAC9 block
Resolution
DAC9 = "1Fh", DAC7 [Fh],
DAC1 [00h], DAC8 [0h]
11
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
I9OF1
"00h" LPF-on, DAC7 [Fh],
DAC8 [0h], DAC1 [00h],
DAC7, DAC8 characteristics included
−2.0

2.0
mA
I9OF2
"00h" LPF-off, DAC7 [Fh],
− 0.85
DAC8 [0h], DAC9 [00h],
DAC7, DAC8 characteristics included

0.85
GLPFON /GLPFOFF ,
input amplitude 0 V to 2 V
0.95
1
1.05
times
XWR ↑ to DAC9 [00h to 1Fh]
±2 LSB range,
DAC7[Fh], DAC8 [0h],
LPF9-off,
LPF91 pin open,
RDCP1 pin open

400
800
ns
V
DAC9 block (continued)
Offset current
LPF on/off gain ratio
Settling time
GRDA9
tSDA9
Supply voltage monitoring block
Abnormality release supply
VPSDL
Sweep VCC from low to high
3.9
4.2
4.5
voltage
VPSOL
Sweep VCC from high to low
5.5
5.8
6.1
Abnormality supply voltage
VPSDH
Sweep VCC from high to low
3.6
3.9
4.2
VPSOH
Sweep VCC from low to high
5.8
6.1
6.4
V
Abnormally emitted light detection DAC5
Resolution
RES5

4

bit
Integral linearity error
EL5
− 0.5

0.5
LSB
Differential linearity error
ED5
− 0.5

0.5
LSB
Offset voltage
V5OF1
DAC5 = set to "Fh" and difference to
ERREF pin
−20

20
mV
V5OF2
DAC5 = set to "0h" and difference to
VNR pin, at ERREF − VNR = 2.0 V
105
125
145
tSDA5
XWR ↑ to DAC5 [0h to Fh],
±0.5 LSB

0.5
1.5
µs
Settling time
Abnormally emitted light detection DAC6
Resolution
RES6

4

bit
Integral linearity error
EL6
− 0.5

0.5
LSB
Differential linearity error
ED6
− 0.5

0.5
LSB
Offset voltage
V6OF1
DAC6 = set to "Fh" and difference to
ERREF pin
−20

20
mV
V6OF2
DAC6 = set to "0h" and difference to
VNR pin, at ERREF − VNR = 2.0 V
105
125
145
tSDA6
XWR ↑ to DAC6 [0h to Fh]
±0.5 LSB

0.5
1.5
Settling time
12
µs
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
VEROFR In playback, DETMONI pin,
IPD = 0 µA
−40

60
mV
VEROFW In recording, DETMONI pin,
IPD = 0 µA
−50

50
Abnormally emitted light detection optical monitor block
Offset voltage
Gain
Gain ratio
GERR1
In playback, addr. "9": D4 = "0",
IPD = 100 µA to 200 µA
9.0
10.0
11.0
GERR2
In playback, addr. "9": D4 = "1",
IPD = 100 µA to 200 µA
4.5
5.0
5.5
GERW
In recording, DETMONI pin,
IPD = 100 µA to 2 000 µA
0.9
1.0
1.1
GERR1
GERW
9.0
10.0
11.0
GERR2
GERW
4.5
5.0
5.5
times
times
f characteristics at playback
fERR
VR1 = 1 kΩ, −3 dB,
IPD = 100 µA to 200 µA
2.5


MHz
f characteristics at recording
fERW
VR1 = 1 kΩ, −3 dB,
IPD = 100 µA to 2 000 µA
5.0


MHz
Data write to XLDERR ↓
t203
XWR ↑ to XLDERR ↓

20
60
ns
Data write to XLDERR ↑
t204
XWR ↑ to XLDERR ↑

25
60
ns
Data write to sleep mode
t205
XWR ↑ to sleep mode

4
9
µs
Data write to normal mode
t206
XWR ↑ to normal mode

3
8
µs
RPHOLD ↑ to DAC5 R → W
t39
RPHOLD ↑ to DAC5 W,
at having reached ±0.5 LSB

0.40
2.5
µs
RPHOLD ↓ to DAC5 W → R
t40
RPHOLD ↓ to DAC5 R,
at having reached ±0.5 LSB

0.40
2.5
µs
RPHOLD ↑ to DAC6 R → W
t41
RPHOLD ↑ to DAC6 W,
at having reached ±0.5 LSB

0.40
2.5
µs
RPHOLD ↓ to DAC6 W → R
t42
RPHOLD ↓ to DAC6 R,
at having reached ±0.5 LSB

0.40
2.5
µs
RPHOLD ↑ to HF module signal
t43
RPHOLD ↑ to XHFON ↑

18
30
ns
RPHOLD ↓ to HF module signal
t44
RPHOLD ↓ to XHFON ↓

17
30
ns
Control operation response
13
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
ns
Recording Modulation
Peak modulation signal response *1
Bias modulation signal response
*1
t113
PKMD ↑ to LDPK ↑ 50% delay

18
30
t114
PKMD ↓ to LDPK ↓ 50% delay

17
30
t115
LDPK ↑ 50% to LDPK ↓ 50%
t116
LDPK ↑ 10% to LDPK ↑ 90%

6
9
t117
LDPK ↓ 90% to LDPK ↓ 10%

4
6
t123
BIMD ↑ to LDBI ↑ 50% delay

18
30
t124
BIMD ↓ to LDBI ↓ 50% delay

17
30
t125
LDBI ↑ 50% to LDBI ↓ 50%
t126
LDBI ↑ 10% to LDBI ↑ 90%

6
9
t127
LDBI ↓ 90% to LDBI ↓ 10%

5
8
t112 −3 t112 −1 t112 +1
ns
t122 −3 t122 −1 t122 +1
Note) *1: Resistive load (at 15 Ω)
Conditions of t113 to t117
Measure at approximately 1.75 V of LDPK pin voltage.
DAC1 [FFh], DAC8 [7h]
DAC9 [1Fh], DAC7 [7h], DAC4 [Fh]
DAC2 [00h to 80f]
Conditions of t123 to t127
Measure at approximately 1.75 V of LDPK pin voltage.
DAC1 [FFh], DAC8 [7h]
DAC9 [1Fh], DAC7 [7h], DAC4 [Fh]
DAC3 [00h to 80f]
• Design reference data
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
∆VTEM VREF = 0 V, Ta = −20°C to +75°C


±30
mV
Low → high input hysteresis
(Schmidt trigger input)
VLHHYS To be applied to PWMSK, ERFIL pin

1.0

V
High → low input hysteresis
(Schmidt trigger input)
VHLHYS To be applied to PWMSK, ERFIL pin

1.0

V
∆VPMOFR In playback, VR1 = 1 kΩ
∆T
IPD = 10 µA to 200 µA
Ta = −20°C to +75°C

55
200
µV
°C
∆VPMOFW In recording, VR1 = 1 kΩ
∆T
IPD = 100 µA to 2 000 µA
Ta = −20°C to +75°C

30
150
Reference voltage block
Reference voltage temperature
characteristics *2
Digital block
Entire optical monitor
Offset voltage temperature
variation
Note) *2: Difference between VREF min. and VREF max. within the range of Ta = −20°C to +75°C.
14
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Ta = −20°C to +75°C
−3

3
%
S1PMR
In playback, AAF-off rise
13
18

V/µs
S1PMW
In recording, rise
35
45

tPMSW1
× 10 → × 1, at having reached ±0.5%

100
300
tPMSW2
× 1 → × 10, at having reached ±0.5%

200
500
fPMROF
In playback, −3 dB, VR1 = 1 kΩ,
AAF filter on, IPD 100 µA to 200 µA

40.8

kHz
dGIPDR In playback, IPD = 60 µA to 240 µA,
Ta = −20°C to +75°C
−3

3
%
dGIPDW In recording, IPD = 0.2 mA to 3.2 mA,
Ta = −20°C to +75°C
−3

3
GIPDR In playback, IPD = 60 µA to 240 µA,
GPMW In recording, IPD = 0.2 mA to 3.2 mA,
Ta = −20°C to +75°C
−3

3
%
tIPDSW1 × 10 → × 1,
at having reached ±0.5%

100
300
ns
tIPDSW2 × 1 → × 10,
at having reached ±0.5%

200
500
dVIVOF VR1 = 0 Ω, IPD = 0 µA,
dT
Ta = −20°C to +75°C

10
50
µV
°C
Entire optical monitor (continued)
Gain ratio variation to
temperature
Slew rate
Signal changeover response
f characteristics
d
GPMR
GPMW
ns
Current amplification block
Gain variation to temperature
Gain ratio variation to
temperature
Signal changeover response
d
I to V conversion
Offset voltage variation to
temperature
Slew rate
SlIV
20
34

V/µs
Open loop gain
GIV

50

dB
Zero-cross frequency
f0IV
Output amplitude at 1 V[p-p]

8

MHz
tIVSET
Error ±0.5%, output variation: within
the range of 0 V to 2 V

100
200
ns
On resistance at playback
RAFR
0 Ω between IVOUT and IVIN

175
250
Ω
On resistance at recording
RAFW

200
300
Ω

1

MHz
Settling time
AAF analog SW
DAC1
f characteristics
fDAC1
Sine wave signal equivalent to 40 mA[p-p]
of current amplitude at LPF12 pin,
DAC7 [0h], DAC8 [Fh], DAC9 [00h],
RDCP2 pin = 1 000 pF
15
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Driving current temperature
characteristics
ErrDA1
Including DAC8 when setting at "FFh",
DAC7 [0h], DAC8 [Fh],
Ta = 0°C to +75°C

7
10
%
Offset current variation to
temperature
dI1ON
dT
"00h", LPF-on, including DAC7, DAC8,
DAC7 [0h], DAC8 [Fh],
Ta = −25°C to +75°C

2
10
µA
°C
dI1OF
dT
"00h", LPF-off, including DAC7, DAC8,
DAC7 [0h], DAC8 [Fh],
Ta = −25°C to +75°C

0.5
10
f characteristics
fDAC9
Sine wave signal equivalent to 40 mA[p-p]
of current amplitude at LPF22 pin,
DAC7 [Fh], DAC8 [0h], DAC1 [00h],
RDCP1 pin = 1 000 pF

1

MHz
Driving current temperature
characteristics
ErrDA9
Including DAC8 at setting at "1Fh",
DAC7 [Fh], DAC8 [0h],
Ta = 0°C ∼ +75°C

7
10
%
Offset current variation to
temperature
dI9ON
dT
"00h", LPF-on, including DAC7, DAC8,
DAC7 [Fh], DAC8 [0h],
Ta = −25°C ∼ +75°C

2
10
µA
°C
dI9OF
dT
"00h", LPF-off, including DAC7, DAC8,
DAC7 [Fh], DAC8 [0h],
Ta = −25°C to +75°C

0.5
10
Driving current temperature
characteristics
ErrDA7
DAC7 [Fh], DAC8 [0h],
DAC9 [1Fh], DAC1 [00h],
Ta = −20°C to +75°C
0
8
15
%
Offset current temperature
characteristics
dIDA7OF DAC7 [0h], DAC8 [0h],
dT
DAC9 [1Fh], DAC1 [00h],
Ta = −20°C to +75°C

0.2
10
µA
°C
DAC1 (continued)
DAC9
DAC7
DAC8
Driving current temperature
characteristics
ErrDA8
DAC8 [Fh], DAC7 [0h],
DAC1 [FFh], DAC9 [00h],
Ta = −20°C to +75°C
0
8
15
%
Offset current temperature
characteristics
dIDA8OF DAC8 [0h], DAC7 [0h],
dT
DAC1 [FFh], DAC9 [00h],
Ta = −20°C to +75°C

0.2
10
µA
°C
16
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit


10
µA
°C
DAC2
Offset current temperature
characteristics
dIDA2OF
dT
Driving current temperature
characteristics
ErrDA2
DAC3 = "FFh", set to DAC4 = "Fh",
Ta = −20°C to +75°C

6
10
%
Settling time
tSDA2A
XWR ↑ to
DAC2 [∆4: 10 h to 14h],
±0.5 LSB DAC4 [Fh]

40
100
ns
tSDA2B
XWR ↑ to
DAC2 [∆7F: 10 h to 8 Fh],
±1.0 LSB DAC4 [Fh]

80
200


10
µA
°C
DAC3
Offset current temperature
characteristics
dIDA3OF
dT
Driving current temperature
characteristics
ErrDA3
DAC3 = "FFh", set to DAC4 = "Fh",
Ta = −20°C to +75°C

6
10
%
Settling time
tSDA3A
XWR ↑ to
DAC3 [∆4: 10 h to 14h],
±0.5 LSB DAC4 [Fh]

40
100
ns
tSDA3B
XWR ↑ to
DAC3 [∆7F: 10 h to 8Fh],
±1.0 LSB DAC4 [Fh]

80
200


10
µA
°C

6
10
%
VPSDHYS Voltage difference between abnormality
detection and release of supply voltage
drop, VPSD1 −VPSDH

300

mV
VPSOHYS Voltage difference between abnormality
detection and release of supply voltage
drop, VPSOH −VPSOL

300

VPDCOF Insufficiently emitted light detection
−5

5
VPOCOF Excessively emitted light detection
−5

5
DAC4
Offset current temperature
characteristics
dIDA4OF
dT
Driving current temperature
characteristics
ErrDA4
DAC4 = "Fh", set to DAC2 = "FFh",
Ta = −20°C to +75°C
Supply voltage monitoring block
Abnormal supply voltage
detection hysteresis
Comparator in abnormally emitted light detection block
Input offset voltage
mV
17
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
dVPDCOF Insufficiently emitted light detection
dT


20
µV
°C
dVPOCOF Excessively emitted light detection
dT


20
Abnormally emitted light
tPWDNF
Insufficiently emitted light detection

150
300
detection response
tPWOVF
Excessively emitted light detection

150
300
Abnormally emitted light
tPWDR
Insufficiently emitted light detection

150
300
release response
tPWOVF
Excessively emitted light detection

150
300
dVDA5OF Set to "Fh"
dT

−10
80
µV
°C
dVDA5OF Set to "Fh"
dT

−10
80
µV
°C
dVEROFR In playback,
dT
IPD = 0 µA

−20
210
µV
°C
dVEROFW In recording,
dT
IPD = 0 µA

−20
200
dGERR1 In playback, IPD = 100 µA to 200 µA,
Ta = −20°C to +75°C
−3
0.5
3
dGERR2 In playback, IPD = 100 µA to 200 µA,
Ta = −20°C to +75°C
−3
0.5
3
dGERW In recording, IPD = 100 µA to 2 000 µA,
Ta = −20°C to +75°C
−3
0.5
3
−3
0.5
3
%
ns
Comparator in abnormally emitted light detection block (continued)
Input offset voltage variation to
temperature
ns
ns
DAC5 block
Offset voltage variation to
temperature
DAC6 block
Offset voltage variation to
temperature
Optical monitor for abnormally emitted light detection
Offset voltage variation to
temperature
Gain variation to temperature
Gain ratio variation to
temperature
Settling time
Signal changeover response
(× 10 mode)
18
d
GERR Ta = −20°C to +75°C
GERW
tERR
In playback, error: ±0.5%,
current variation 100 µA to 200 µA

250
400
tERW
In playback, error: ±0.5%,
current variation 100 µA to 2 000 µA

100
200
tERSW1A Playback → recording ±0.5%
addr "9": D4 = "0" × 10

170
400
tERSW2A Recording → playback ±0.5%
addr "9": D4 = "0" × 10

550
1 000
%
ns
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
tERSW1B Playback → recording ±0.5%,
addr "9": D4 = "1" × 5

200
400
ns
tERSW2B Recording → playback ±0.5%,
addr "9": D4 = "1" × 5

250
500
Optical monitor for abnormally emitted light detection (continued)
Signal changeover response
× 5 mode
Control operation response
Register setting → output
Data writing to LPF-off
t87
XWR ↑ to LPF "off"

0.8
2.0
µs
Data writing to LPF-on
t88
XWR ↑ to LPF "on"

250
600
ns
Data writing to AAF-off
t85
XWR ↑ to AAF "off"

60
200
ns
Data writing to AAF-on
t86
XWR ↑ to AAF "on"

20
200
ns
Data writing to
DAC6 changeover *3
t207
XWR ↑ to DAC6 ±0.5%

0.9
2.5
µs
Data writing to
DAC5 changeover *3
t208
XWR ↑ to DAC5 ±0.5%

0.9
2.5
µs
Data writing to shunt on *4
t89
XWR ↑ to shunt circuit "on",
LDERR register "1"


430
ns
Data writing to shunt off *4
t90
XWR ↑ to shunt circuit "off",
LDERR register "0"


230
ns
Control operation response
Input → output
RPHOLD ↑ to
PWRMONI changeover
t37
RPHOLD ↑ to × 1,
at having reached ±0.5%

0.4
0.9
µs
RPHOLD ↓ to
PWRMONI changeover
t38
RPHOLD ↓ to × 10, AAF,
at having reached ±0.5%

0.4
0.9
µs
RPHOLD ↑ to mask signal *5
t45
RPHOLD ↑ to mask signal ↓

15
30
ns
Mask signal width at
RPHOLD ↑ *5
t46
Mask signal ↓ to mask signal ↑
at RPHOLD high

1
1.1
µs
RPHOLD ↓ to mask signal *5
t47
RPHOLD ↓ to mask signal ↓

15
30
ns
Mask signal width at
RPHOLD ↑ *5
t48
Mask signal ↓ to mask signal ↑
at RPHOLD low

1
1.1
µs
RPHOLD ↓ to
AAFRST signal ↑ *5
t211
RPHOLD ↓ to AAFRST ↑

15
30
ns
AAFRST signal width *5
t212
AAFRST ↑ to AAFRST ↓

2
2.2
µs
Shunt circuit "on"
*6
t49
XCLR ↓ to shunt circuit "on"


430
ns
Shunt circuit "off"
*6
t50
XCLR ↑ to shunt circuit "off"


230
ns
Note) *3: Measure at DACMONI pin.
*4: Measuring is impossible outside the IC.
*5: Measuring is impossible outside the IC.
The values of t46, t48 and t212 are determined by the built-in resistor Rin1 (10 kΩ, allowance: 10%) and the external C1.
*6: Measuring is impossible outside the IC. The built-in resistor Rin2 (10 kΩ, allowance: 10%) and the external C2.
19
AN8725FH
ICs for Optical Disk Drive
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Control operation response
Conditions
Min
Typ
Max
Unit
Input → output (continued)
t213
AAFRST ↑ to AAF "reset"


200
ns
t214
AAFRST ↓ to AAF "normal"


200
ns
t215
ERFIL ↑ to XLDERR1 ↓

1.2
2.0
µs
t216
ERFIL ↓ to XLDERR1 ↑

15

ns
Mode changeover
t55
XWR ↑ to AAFRST test mode

25
60
ns
AAFRST
t56
XWR ↑ to AAFRST normal mode

200
400
Mode changeover
t57
XWR ↑ to SW6 test mode

90
200
SW6
t58
XWR ↑ to SW6 normal mode

60
150
Mode changeover
t59
XWR ↑ to XHFON test mode

20
60
XFHON
t60
XWR ↑ to XHFON normal mode

25
70
Mode changeover
t61
XWR ↑ to SW2 test mode

30
80
SW2
t62
XWR ↑ to SW2 normal mode

20
50
Mode changeover
t63
XWR ↑ to SW3 test mode

30
70
SW3
t64
XWR ↑ to SW3 normal mode

20
50
Mode changeover
t67
XWR ↑ to SW1 test mode

20
50
SW1
t68
XWR ↑ to SW1 normal mode

35
100
Mode changeover
t69
XWR ↑ to LEVSW test mode

0.55
2.0
LEVSW
t70
XWR ↑ to LEVSW normal mode

0.35
1.0
t75
XWR ↑ to AAF filter reset

25
100
t76
XWR ↑ to AAF filter normal

200
400
Test mode operation
t77
XWR ↑ to × 1, when reaching ±0.5%

0.4
0.9
Current amplification changeover
t78
XWR ↑ to × 10,
when reaching AAF ±0.5%

0.4
0.9
Test mode operation
t79
XWR ↑ to XHFON ↑

20
60
XHFON
t80
XWR ↑ to XHFON ↓

25
70
Test mode operation
t81
XWR ↑ to SW2 "on" DAC2 ±2.0 LSB

90
200
t81A
XWR ↑ to SW2 "on" DAC2 × 50%

30
80
t82
XWR ↑ to SW2 "off" 0 mA ±2.0 LSB

50
150
t82A
XWR ↑ to SW2 "on" DAC2 × 50%

20
60
AAF reset "reset"
*6
AAF reset "normal"
*6
Mask signal (wrt. ERFIL)
*7
Register → output
Test mode operation
AAF filter
SW2
*9
Note) *6:
*7:
*8:
*9:
20
*8
ns
ns
ns
ns
ns
µs
ns
µs
Measuring is impossible outside the IC. The built-in resistor Rin2 (10 kΩ, allowance: 10%) and the external C2.
Measuring is impossible outside the IC.
No external fitting until on/off of switch.
Set the data to "7Fh".
ns
ns
ICs for Optical Disk Drive
AN8725FH
■ Electrical Characteristics at VCC = 5.0 V, Ta = 25°C (continued)
• Design reference data (continued)
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
t83
XWR ↑ to SW3 "on" DAC3 ±2.0 LSB

330
600
ns
t83A
XWR ↑ to SW3 "on" DAC3 × 50%

30
80
t84
XWR ↑ to SW3 "off" 0 mA ±2.0 LSB

50
150
t84A
XWR ↑ to SW3 "on" DAC3 × 50%

20
60
t91
XWR ↑ to SW1 "off"

20
100
t92
XWR ↑ to SW1 "on"

35
150
t93
XWR ↑ to DAC5 W,
at having reached ±0.5 LSB

1.0
2.5
t94
XWR ↑ to DAC5 R,
at having reached ±0.5 LSB

0.7
2.5
t95
XWR ↑ to DAC6 W,
at having reached ±0.5 LSB

1.0
2.5
t96
XWR ↑ to DAC6 R,
at having reached ±0.5 LSB

0.7
2.5
Register → output (continued)
Test mode operation SW3 *9
Test mode operation SW1
*10
Test mode operation DAC5
Test mode operation DAC6
ns
µs
µs
Note) *9 : Data sets up "7Fh".
*10 : DAC1 = 7 Fh, DAC9 = 00 h, DAC7 = 0h, DAC8 = Fh
■ Terminal Equivalent Circuits
Pin No.
Symbol
1
2
3
Pin 1: SGND
Pin 2: DGND
Pin 3: DGND
4
5
6
Pin 4: PKMD
Pin 5: BIMD
Pin 6: RPHOLD
Equivalent circuit

DVCC
5 kΩ
Pin 4, 5, 6, 11,
12, 13, 14,
27
100 kΩ
DGND
7
8
Pin 7: XWR
Pin 8: XRD
DVCC
100 kΩ
5 kΩ
Pin 7, 8, 26
DGND
21
AN8725FH
ICs for Optical Disk Drive
■ Terminal Equivalent Circuits (continued)
Pin No.
9
Symbol
DVCC
Equivalent circuit
DVCC
Pin 9, 34
DGND
10
DGND
11
12
13
Pin 11: AD0
Pin 12: AD1
Pin 13: AD2
14
Pin 14: AD3
15
16
17
18
Pin 15: DT0
Pin 16: DT1
Pin 17: DT2
Pin 18: DT3

Refer to pin 4
DVCC
DGND
DVCC
Pin 15, 16, 17,
18, 22, 23,
24, 25
DGND

19
20
Pin 19: DGND
Pin 20: SGND
21
Pin 21: SGND
22
23
24
Pin 22: DT4
Pin 23: DT5
Pin 24: DT6
25
Pin 25: DT7
26
XLDEN
Refer to pin 7
27
XCLR
Refer to pin 4
28
DGND

29
XLDERR
Refer to pin 15
DVCC
Pin 29, 32
DGND
22
ICs for Optical Disk Drive
AN8725FH
■ Terminal Equivalent Circuits (continued)
Pin No.
30
31
Symbol
Equivalent circuit
Pin 30: PWMSK
Pin 31: ERFIL
DVCC
Schmitt-trigger
Pin 30, 31
10 kΩ
DGND
32
XHFON
Refer to pin 29
33
DGND

34
DVCC
Refer to pin 9
35
AGND

36
VC
AVCC
36
50 Ω
AGND
37
RREF
AVCC
37
AGND
38
LPF11
AVCC
Pin 38, 43
IGND
23
AN8725FH
ICs for Optical Disk Drive
■ Terminal Equivalent Circuits (continued)
Pin No.
39
Symbol
Equivalent circuit
LPF12
AVCC
Pin 39, 44
IGND

40
41
Pim 40 : IGND
Pim 41 : SGND
42
Pim 42 : SGND
43
LPF91
Refer to pin 38
44
LPF92
Refer to pin 39
45
AVCC
AVCC
Pin 45, 58
AGND
46
DETMONI
CVCC
AVCC
46
CGND
47
PWRMONI
50
49
48
AVCC
47
CGND
24
ICs for Optical Disk Drive
AN8725FH
■ Terminal Equivalent Circuits (continued)
Pin No.
48
Symbol
AAF
Equivalent circuit
50
49
AVCC
48
CGND
60
49
IVOUT
50
AVCC
49
CGND
50
IVIN
AVCC
50
CGND
51
IPD
CVCC
AVCC
51
CGND
52
CGND

25
AN8725FH
ICs for Optical Disk Drive
■ Terminal Equivalent Circuits (continued)
Pin No.
53
Symbol
Equivalent circuit
CVCC
53
CVCC
CGND
54
AGND
55
56
Pim 55 : ERREF
Pim 56 : VNR

AVCC
Pin 55, 56
AGND
57
DACMONI
AVCC
57
AGND
58
AVCC
59
60
61
Pim 59 : SGND
Pim 60 : SGND
Pim 61 : SGND
62
Pim 62 : RGND
63
64
Pim 63 : RDCP1
Pim 64 : RDCP2
Refer to pin 45

RVCC
Pin 63, 64
RGND
26
ICs for Optical Disk Drive
AN8725FH
■ Terminal Equivalent Circuits (continued)
Pin No.
65
Symbol
Equivalent circuit
LDRP
68
RVCC
AVCC
65
SGND
66
N.C.

67
N.C.

68
RVCC
68
RVCC
RGND
69
LDPK
Pin 70, 75
AVCC
Pin 69, 74
SGND
PBGND
70
XLDPK
70
75
SGND
69
74
27
AN8725FH
ICs for Optical Disk Drive
■ Terminal Equivalent Circuits (continued)
Pin No.
Symbol
71
PKGND
72
PKVCC
Equivalent circuit

Pin 72
PKVCC
77
BIVCC
SGND
73
PKDCP
AVCC
Pin 73, 78
SGND
PBGND
74
LDBI
Refer to pin 69
75
XLDBI
Refer to pin 70
76
BIGND

77
BIVCC
Refer to pin 72
78
BIDCP
Refer to pin 73
79
SGND

80
SGND

■ Application Notes
1. PD  Ta curves of QFP080-P-1212
2.000
1.920
1.800
Mounted on standard board
(glass epoxy: 75 mm × 75 mm × t0.8 mm)
Rth(j-a) = 65.1°C/W
Power dissipation PD (W)
1.600
1.400
1.200
1.000
0.800
Independent IC
without a heat shink
Rth(j-a) = 125.0°C/W
0.600
0.400
0.200
0.000
0
25
50
75
100
125
Ambient temperature Ta (°C)
28
150
ICs for Optical Disk Drive
AN8725FH
■ Application Notes (continued)
2. Timing chart
1) Definition of rising and falling
tHL
tLH
90%
90%
10%
10%
2) Interface
In write
In read
t2
AD0
to AD3
t6
t9
Write address
t3
Read address
t7
t10
Write data
DT0
to DT7
t13
t14
Read data
t4
XWR
t11
XRD
Parameter
Switching characteristics
Pulse width
Setup time
Hold time
Symbol
Conditions
Min
Typ
Max
Unit
ns
tLH
10% to 90%


10
tHL
90% to 10%


10
t4
XWR ↓ to XWR ↑
50


t11
XRD ↓ to XRD ↑
70


t2
AD defined to XWR ↓
10


t3
DT defined to XWR ↑
35


t9
AD defined to XRD ↓
10


t10
XRD ↓ to DT defined


50
t6
XWR ↑ to AD released
0


t7
XWR ↑ to DT released
0


t13
XRD ↑ to AD released
0


t14
XRD ↑ to DT released
0

30
ns
ns
ns
29
AN8725FH
ICs for Optical Disk Drive
■ Application Notes (continued)
3. I/O specifications
• Parallel interface
1) I/O level is CMOS.
2) Transfers a digital signal to DAC and each mode setting register with 4 addresses, 8 data and 2 control signals.
Address signal
AD0 to AD3
Data signal
DT0 to DT7
Control signal
XWR, XRD
3) Write can be done at the rise of XWR.
However, selection of a write register can be done at the fall of XWR.
DAC and register data are stored at D-FF.
4) Read appears on DT0 to DT7 at XRD = low.
5) Refer to "■ Application Notes, 2. Timing chart" for the timing chart.
6) Each signal line is pulled up and down as below:
Pull-down to GND with 100 kΩ
AD0 to AD3
DT0 to DT7
Pull-up to VCC with 100 kΩ
XWR
WRD
30
ICs for Optical Disk Drive
AN8725FH
■ Application Notes (continued)
4. Signal flow
DT0 to DT7
AD0
4
to AD3
XWR
XRD
4
DAC7
4
DAC8
DAC1
"1" register
8
DAC1
DAC2
"2" register
8
DAC2
DAC3
"3" register
8
DAC3
DAC4
"4" register
4
DAC4
DAC56R
"5" register
8
DAC56W
"6" register
8
DAC78
"0" register
WR0
RD0
WR1
RD1
WR2
RD2
WR3
RD3
WR4
RD4
WR5
RD5
WR6
RD6
WR7
RD7
WR8
RD8
WR9
RD9
WRA
RDA
WRB
RDB
WRC
RDC
WRE
RDE
WRF
RDF
DAC5
DAC6
CNTL1
"7" register
CNTL2
"8" register
CNTL3
"9" register
ERRMSK
"A" register
ERRFAC
"B" register
DAC9
"C" register
5
DAC9
DUMY
"E" register
LDDENB
"F" register
31
AN8725FH
ICs for Optical Disk Drive
■ Application Notes (continued)
5. Register circuit configuration
1) DAC1, DAC2, DAC3, DAC4, DAC9
D-FF
8-bit
DT0
to DT 7
8-bit
White DAC* (0 to 7)
D
WR*
Q
DAC* (0 to 7)
Analog output
DAC*
CK
3-state
driver
8-bit
8-bit
Read DAC* (0 to 7)
DAC* (0 to 7)
RD*
2) DAC7, DAC8
D-FF
8-bit
DT0
to DT 7
White DAC78 (0 to 7)
WR0
D
Q
8-bit
4-bit
DAC78 (0 to 7)
DAC78 (4 to 7)
CK
4-bit
3-state
driver
RD0
32
DAC7
4-bit
DAC78 (0 to 3)
8-bit
8-bit
Read DAC78 (0 to 7)
DAC78 (0 to 7)
DAC8
4-bit
ICs for Optical Disk Drive
AN8725FH
■ Application Notes (continued)
5. Register circuit configuration (continued)
3) DAC56R, DAC56W
Selector
D-FF
8-bit
DT0
to DT7
White data (0 to 7)
8-bit
D
WR5
Q
Data (0 to 7)
A
CK
Data (0 to 3)
3-state
driver
8-bit
8-bit
Data (0 to 7)
Read data (0 to 7)
Insufficiently
emitted light
DAC5
4-bit
RPHOLD = low
output A
RPHOLD = high
output B
RD5
Data (4 to 7)
Excessively
emitted light
DAC6
4-bit
D-FF
8-bit
White data (0 to 7)
WR6
8-bit
D
Q
Data (0 to 7)
B
CK
3-state
driver
8-bit
8-bit
Read data (0 to 7)
Data (0 to 7)
RD6
RPHOLD
33
AN8725FH
ICs for Optical Disk Drive
■ Application Notes (continued)
5. Register circuit configuration (continued)
4) CNTL1, CNTL2, CNTL3, ERRMSK, ERRFAC, DUMY, LDDENB
D-FF
8-bit
DT0
to DT7
White data (0 to 7)
WR*
8-bit
D
Q
Data (0 to 7)
CK
3-state
driver
RD*
34
8-bit
8-bit
Read data (0 to 7)
Data (0 to 7)
Each control
circuit
ICs for Optical Disk Drive
AN8725FH
41 SGND
42 SGND
C6
43 LPF91 R3
C7
44 LPF92
45 AVCC
46 DETMONI
C8
48 AAF
49 IVOUT
50 IVIN
51 IPD
52 CGND
R4
47 PWRMONI
R5
C9
C10
53 CVCC
54 AGND
55 ERREF
56 VNR
C11
58 AVCC
59 SGND
60 SGND
57 DACMONI
PD
■ Application Circuit Example
SGND 61
40 IGND
RGND 62
39 LPF12 C5
RDCP1 63
38
RDCP2 64
37 RREFLPF11
R1
R6
C12
C13
LD
R7
R9
36 VC
LDRP 65
R8
N.C.
VCC
34 DVCC
C3
33 DGND
32 XHFON
LDPK 69
R10
ERFIL (Rin2)
XLDPK 70
31
PKGND 71
30
C2
PWMSK (Rin1)
29
C1
XLDERR
C15
PKVCC 72
C16 tantalum
PKDCP 73
28 DGND
LDBI 74
27 XCLR
SGND 20
DGND 19
DT3 18
DT2 17
DT1 16
DT0 15
AD3 14
AD2 13
9
DVCC
AD1 12
8
XRD
AD0 11
7
XWR
DGND 10
6
C19
5
BIMD
RPHOLD
4
21 SGND
PKMD
22 DT4
SGND 80
3
23 DT5
SGND 79
DGND
24 DT6
BIDCP 78
C18 tantalum
2
25 DT7
BIVCC 77
C17
1
26 XLDEN
BIGND 76
SGND
XLDBI 75
DGND
R11
C4
35 AGND
66
67
N.C.
RVCC 68
C14
R2
35
AN8725FH
ICs for Optical Disk Drive
■ Application Circuit Example (continued)
• Resistance and capacitance
36
Symbol
Resistor value
Unit
Symbol
Resistor value
Unit
R1
10
kΩ
C1
220
pF
R2


C2
100
pF
R3


C3
0.1
µF
R4


C4
0.01
µF
R5
1
kΩ
C5


R6
10
kΩ
C6


R7
82
Ω
C7
0.1
µF
R8
10
kΩ
C8


R9
82
Ω
C9
18
pF
R10
3
Ω
C10
0.1
µF
R11
3
Ω
C11
0.1
µF
(Rin1)
10
kΩ
C12
5 600
pF
(Rin2)
10
kΩ
C13
5 600
pF
C14
0.1
µF
C15
0.1
µF
C16
1
µF
C17
0.1
µF
C18
1
µF
C19
0.1
µF