SONY CXA2765ER

5-channel 3-LD Driver for Optical Disk Drive
CXA2765ER
Description
The CXA2765ER is a laser driver IC that can drive optical disk lasers capable of writing the three formats of
CD, DVD and BD.
(Applications: Writable 3-wavelength optical disk drive)
Features
‹ Supports power save mode with register setting LDOFF
‹ LD drivers
Š Three LD drivers for CD, DVD and BD
Š Maximum driving current
y OUTBD: Total = 450mA (Each channel: 150mA, 200mA, 150mA, 50mA, 150mA)
y OUT1, OUT2: Total = 800mA (Each channel: 180mA, 400mA, 300mA, 150mA, 180mA)
Š Driver current noise: 0.4nA/ Hz (Read)
Š 5-channel control allows generation of a 5-value recording waveform
Š Register setting of high-frequency modulator (HFM) frequency and amplitude
y Frequency: 200MHz to 600MHz, 8 bits
y Amplitude: 0mAp-p to 100mAp-p, 8 bits
Š IOP monitor using the VIOPMON pin (BD only)
Š VOP monitor using the VIOPMON pin
Š Register setting of HFM spectrum diffusion function (Modulation frequency: 2 bits, diffusion frequency: 2 bits)
Package
32-pin VQFN (Plastic)
Structure
CMOS IC
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.
-1-
E06825C79
CXA2765ER
Absolute Maximum Ratings
Š Supply voltage
VCC
6
V
VCC_LDR
6
V
VCC_LDB
10.0
V
–65 to +150
°C
Š Storage temperature
Tstg
Š Junction temperature
Tjmax
150
°C
Š OUTBD pin voltage
OUTBD_OFF
<7
V
(When BD_LD is OFF)
(When BD_LD is OFF)
Operating Conditions
Š Supply voltage
VCC
4.5 to 6
V
VCC_LDR
4.5 to 6
V
VCC_LDB
5 to 9
V
–10 ≤ Topr ≤ 150 – ΔTj
°C
<5
V
Š Operating temperature
Topr
Š OUTBD pin voltage
OUTBD_ON
-2-
(When BD_LD is ON)
(When BD_LD is ON)
CXA2765ER
IR
GND1
IIN5
IIN4
IIN3
IIN2
IINR
Block Diagram and Pin Configuration
32
31
30
29
28
27
26
Bias
VCC
1
OUTEN2
2
Current
AMP
Current
AMP
Current
AMP
Current
AMP
Current
AMP
25 OUTBD
To all blocks
24 VCC_LDB
Driver
xOUTEN2
23 GND_LD
3
IOP
7
OUTEN5
8
xOUTEN5
9
Driver
Mode
control
To all blocks
Serial interface
and
Status register
HFM
10
11
12
19 OUT1
13
14
15
16
-3-
18 LDEN
17 SEN
SCLK
xOUTEN4
20 VCC_LDR
SDIO
6
22 VIOPMON
21 OUT2
VD3
OUTEN4
Driver
GND2
5
RDIS
xOUTEN3
VOPMON
xOSCEN
4
OSCEN
OUTEN3
CXA2765ER
Pin Description
Pin
No.
Symbol
1
VCC
2
OUTEN2
I/O
Pin voltage
[V]
Equivalent circuit
—
4.5 to 6.0
—
I
—
IIN2 setting current control signal
input (positive logic): LVDS/CMOS
Fix to GND when not used.
Description
Supply voltage for input signal,
bias and timing blocks
3
xOUTEN2
I
—
IIN2 setting current control signal
input (negative logic): LVDS
Not used in single input mode.
Fix to VCC when not used.
4
OUTEN3
I
—
IIN3 setting current control signal
input (positive logic): LVDS/CMOS
Fix to GND when not used.
—
IIN3 setting current control signal
input (negative logic): LVDS
Not used in single input mode.
Fix to VCC when not used.
5
xOUTEN3
I
VCC
1
6
7
OUTEN4
xOUTEN4
I
I
—
—
2
3
4
5
6
7
8
9
IIN4 setting current control signal
input (positive logic): LVDS/CMOS
Fix to GND when not used.
500
IIN4 setting current control signal
input (negative logic): LVDS
Not used in single input mode.
Fix to VCC when not used.
10 11
13
8
9
OUTEN5
xOUTEN5
I
I
GND2
—
IIN5 setting current control signal
input (positive logic): LVDS/CMOS
Fix to GND when not used.
—
IIN5 setting current control signal
input (negative logic): LVDS
Not used in single input mode.
Fix to VCC when not used.
10
OSCEN
I
—
HFM control signal input (positive
logic): LVDS
Not used in single input mode.
Fix to GND when not used.
11
xOSCEN
I
—
HFM control signal input (negative
logic): LVDS/CMOS
Fix to VCC when not used.
VCC
1
100k
12
RDIS
I
—
IINR setting current control signal
input (negative logic)
(with pull-up resistor)
500
12
13
GND2
-4-
CXA2765ER
Pin
No.
13
Symbol
GND2
I/O
Pin voltage
[V]
Equivalent circuit
—
—
—
Description
Timing block GND
VCC
1
14
VD3
—
3.3
Voltage decoupling for serial
register circuit
(Connect to GND through 0.1μF.)
10
14
13
GND2
VCC
1
14
15
SDIO
I/O
—
15
Serial register data I/O
500
13
GND2
VCC
1
14
16
SCLK
I
—
Serial register clock input
(with pull-down resistor)
500
16
50k
13
GND2
VCC
1
17
SEN
I
—
14
Serial register chip select input
(with pull-down resistor)
500
17
18
50k
18
LDEN
I
—
13
GND2
-5-
LDEN control
(with pull-down resistor)
High: LD enabled
Low: Power save
CXA2765ER
Pin
No.
Symbol
I/O
Pin voltage
[V]
19
OUT1
O
—
20
VCC_LDR
—
4.5 to 6.0
Equivalent circuit
Description
VCC_LDR
20
Laser driving output 1
Supply voltage for output stage
19
21
21
OUT2
O
—
23
Laser driving output 2
GND_LD
VCC_LDR
20
22
VIOPMON
O
—
500
Monitor output
22
200
23
GND_LD
23
GND_LD
—
VCC_LDR
—
20
24
Output stage GND
VCC_LDB
9k
24
VCC_LDB
—
5 to 9
Supply voltage for blue-violet LD
25
20k
25
OUTBD
O
—
23
Laser driving output (for BD)
GND_LD
VCC
1
26
IINR
I
—
500
Current setting R
26
740
31
GND1
-6-
CXA2765ER
Pin
No.
Symbol
I/O
Pin voltage
[V]
27
IIN2
I
—
28
IIN3
I
—
Equivalent circuit
Description
VCC
1
500
Current setting 2
Current setting 3
27
28
29
29
IIN4
I
1k
—
31
Current setting 4
GND1
VCC
1
30
IIN5
I
—
500
Current setting 5
30
740
31
GND1
31
GND1
—
—
Input signal block and bias block
GND
—
VCC
1
32
IR
—
1.25
Reference current setting resistor
connection
(Connect to GND through 22kΩ.)
500
500
32
31
GND1
-7-
CXA2765ER
Electrical Characteristics
(VCC = VCC_LDR = 5V, VCC_LDB = 8V, Ta = 25°C)
TEST
No.
Item
Symbol
Min.
Typ.
Max.
Unit
Conditions
1.2
2.1
3.0
mA
LDEN = Low or LDM = 00
mA
LDEN = High and LDM = 01 or 02
IINR, 2, 3, 4, 5 = 0
RDIS = OSCEN = OUTEN2, 3, 4, 5 =
Disable
mA
RDIS, OSCEN = Enable
OUT1 or OUT2 = 40mA,
modulation amplitude = 20mAp-p
Current consumption excluding the
OUT1 and OUT2 pin current.
<Current Consumption>
1
Current consumption 1
(LDOFF)
2
Current consumption 2
(CD, DVD_STANDBY)
3
4
Current consumption 3
(CD, DVD_Read)
Current consumption 4
(CD, DVD_Write)
ICC1
ICC2
ICC3
ICC4
5
21
26
12
31
38
19
41
50
mA
RDIS, OUTEN2, OUTEN3 = Enable
(IOUTR, IOUT2, IOUT3)
IOUTR = 40mA (Duty = 100%)
IOUT2 = 240mA (Duty = 25%)
IOUT3 = 120mA (Duty = 50%)
Current consumption excluding the
OUT1 and OUT2 pin current.
240mA
120mA
40mA
5
6
7
Current consumption 5
(BD_STANDBY)
Current consumption 6
(BD_Read)
Current consumption 7
(BD_Write)
ICC5
ICC6
ICC7
7
14
16
10
20
23
13
26
30
mA
LDEN = High and LDM = 03
IINR, 2, 3, 4, 5 = 0
RDIS = OSCEN = OUTEN2, 3, 4, 5 =
Disable
mA
RDIS, OSCEN = Enable
OUTBD = 40mA,
modulation amplitude = 20mAp-p
Current consumption excluding the
OUTBD pin current.
mA
RDIS, OUTEN2, OUTEN3 = Enable
(IOUTR, IOUT2, IOUT3)
IOUTR = 40mA (Duty = 100%)
IOUT2 = 60mA (Duty = 25%)
IOUT3 = 30mA (Duty = 50%)
Current consumption excluding the
OUTBD pin current.
60mA
30mA
40mA
-8-
CXA2765ER
TEST
No.
Item
Symbol
Min.
Typ.
Max.
Unit
Conditions
<Serial Interface AC Characteristics>
8
SCLK operating range
Fser
—
—
20
MHz
9
SCLK “H” pulse width
Twhsc
13
—
—
ns
10
SCLK “L” pulse width
Twlsc
13
—
—
ns
11
SEN “L” time
Tel
26
—
—
ns
12
SEN rising edge to the
first SCLK falling edge
Tersf
15
—
—
ns
13
SDIO set up time
Tcds
15
—
—
ns
14
SDIO hold time
Tcdh
15
—
—
ns
15
Last SCLK rising edge to
SEN falling edge
Tsref
1/Fser
—
—
s
16
SCLK cycle time1
Tcc
50
—
—
ns
17
SDIO output delay
Tcdd
—
—
15
ns
18
SDIO output hold time
Tedh
—
5.1
—
ns
Tsref
Tersf
(HOST) SEN
Tcc
Twhsc
Twlsc
(HOST) SCLK
Tel
50%
20%
20%
70%
50%
Tcds
70%
20%
Tcdh
(HOST) SDIO
Tedh
Tcdd
(CXA2765ER) SDIO
Serial Interface Timing
<CMOS Logic Input>
19
Input voltage High level
VSH
2.1
—
3.6
V
Pins 2, 4, 6, 8, 11, 12 and 15 to 18
20
Input voltage Low level
VSL
0
—
0.6
V
Pins 2, 4, 6, 8, 11, 12 and 15 to 18
21
Input current 1 (High level)
ISH1
51
72
120
μA
Pins 16 to 18 (VSH = 3.6V)
22
Input current 1 (Low level)
ISL1
–10
—
10
μA
Pins 16 to 18 (VSL = 0V)
23
Input current 2
IS2
–10
—
10
μA
Pins 2, 4, 6, 8, 11
24
Input current 3 (High level)
ISH3
–24
–14
–9
μA
Pin 12 (VSH = 3.6V)
25
Input current 3 (Low level)
ISL3
–84
–50
–35
μA
Pin 12 (VSL = 0V)
<CMOS Logic Output>
26
Output voltage High level
VOSH
2.8
—
3.3
V
Pin 15 (IOH = 3mA)
27
Output voltage Low level
VOSL
0
—
0.4
V
Pin 15 (IOL = 3mA)
28
VD3 voltage variance
VVD3
3.1
—
3.5
V
Pin 14
VDR
0
—
3
V
Pins 2 to 11
<Differential Input>
29
Input voltage range
30
Differential input amplitude
VDTH
0.2
—
1
V
Pins 2 to 11
31
Input current
ID
–10
—
10
μA
Pins 2 to 11
-9-
CXA2765ER
TEST
No.
Item
Symbol
Min.
Typ.
Max.
Unit
Conditions
<LD Driver DC Characteristics>
32
Total maximum driving
current (CD, DVD)
IMAX
800
—
—
mA
OUT1, 2 = 3.5V
33
IINR CH maximum driving
current (CD, DVD)
IMAXR
180
—
—
mA
OUT1, 2 = 3.5V
34
IIN2 CH maximum driving
current (CD, DVD)
IMAX2
400
—
—
mA
OUT1, 2 = 3.5V
35
IIN3 CH maximum driving
current (CD, DVD)
IMAX3
300
—
—
mA
OUT1, 2 = 3.5V
36
IIN4 CH maximum driving
current (CD, DVD)
IMAX4
150
—
—
mA
OUT1, 2 = 3.5V
37
IIN5 CH maximum driving
current (CD, DVD)
IMAX5
180
—
—
mA
OUT1, 2 = 3.5V
38
Total minimum driving
current (CD, DVD)
IMIN
—
—
10
mA
OUT1, 2 = 3.5V
39
IINR CH minimum driving
current (CD, DVD)
IMINR
—
—
4.3
mA
OUT1, 2 = 3.5V
40
IIN2 CH minimum driving
current (CD, DVD)
IMIN2
—
—
5.1
mA
OUT1, 2 = 3.5V
41
IIN3 CH minimum driving
current (CD, DVD)
IMIN3
—
—
4.0
mA
OUT1, 2 = 3.5V
42
IIN4 CH minimum driving
current (CD, DVD)
IMIN4
—
—
1.9
mA
OUT1, 2 = 3.5V
43
IIN5 CH minimum driving
current (CD, DVD)
IMIN5
—
—
3.6
mA
OUT1, 2 = 3.5V
44
Total maximum driving
current (BD)
IMAX_BD
450
—
—
mA
OUTBD = 1.5V
45
IINR CH maximum
driving current (BD)
IMAXR_BD
150
—
—
mA
OUTBD = 1.5V
46
IIN2 CH maximum
driving current (BD)
IMAX2_BD
200
—
—
mA
OUTBD = 1.5V
47
IIN3 CH maximum
driving current (BD)
IMAX3_BD
150
—
—
mA
OUTBD = 1.5V
48
IIN4 CH maximum
driving current (BD)
IMAX4_BD
50
—
—
mA
OUTBD = 1.5V
49
IIN5 CH maximum
driving current (BD)
IMAX5_BD
150
—
—
mA
OUTBD = 1.5V
50
Total minimum driving
current (BD)
IMIN_BD
–1.1
—
6.0
mA
OUTBD = 1.5V
51
IINR CH minimum
driving current (BD)
IMINR_BD
0
—
2.3
mA
OUTBD = 1.5V,
measured value – (IOP when RDIS =
OUTENx = Disable)
52
IIN2 CH minimum driving
current (BD)
IMIN2_BD
0
—
2.7
mA
OUTBD = 1.5V,
measured value – (IOP when RDIS =
OUTENx = Disable)
53
IIN3 CH minimum driving
current (BD)
IMIN3_BD
0
—
2.0
mA
OUTBD = 1.5V,
measured value – (IOP when RDIS =
OUTENx = Disable)
54
IIN4 CH minimum driving
current (BD)
IMIN4_BD
0
—
0.7
mA
OUTBD = 1.5V,
measured value – (IOP when RDIS =
OUTENx = Disable)
55
IIN5 CH minimum driving
current (BD)
IMIN5_BD
0
—
3.0
mA
OUTBD = 1.5V,
measured value – (IOP when RDIS =
OUTENx = Disable)
56
Read noise 1 (CD, DVD)
RNS1
—
0.31
—
nA/ Hz
OUT1, 2 = 40mA, OSCEN = Disable
16.5MHz noise, HFMP = 32d
- 10 -
CXA2765ER
TEST
No.
Item
57
Read noise 2 (CD, DVD)
58
Write noise 1 (CD, DVD)
Symbol
RNS2
WNS1
Min.
Typ.
Max.
Unit
—
0.42
—
nA/ Hz
OUT1, 2 = 40mA, OSCEN = Enable
(20mAp-p, 350MHz)
16.5MHz noise, HFMP = 32d
nA/ Hz
RDIS, OUTEN2 = Enable
IOUTR = 40mA (Duty = 100%)
IOUT2 = 40mA (Duty = 50%)
16.5MHz noise
—
2.4
—
Conditions
59
Write noise 2 (CD, DVD)
WNS2
—
2.8
—
nA/ Hz
OUTEN5, OUTEN2 = Enable
IOUT5 = 40mA (Duty = 100%)
IOUT2 = 40mA (Duty = 50%)
16.5MHz noise
60
Read noise 1 (BD)
RNS1_BD
—
0.46
—
nA/ Hz
OUTBD = 40mA, OSCEN = Disable
16.5MHz noise, HFMP = 79d
61
Read noise 2 (BD)
RNS2_BD
—
0.47
—
nA/ Hz
OUTBD = 40mA, OSCEN = Enable
(20mAp-p, 350MHz)
16.5MHz noise, HFMP = 79d
nA/ Hz
RDIS, OUTEN2 = Enable
IOUTR = 40mA (Duty = 100%)
IOUT2 = 40mA (Duty = 50%)
16.5MHz noise
OUTEN5, OUTEN2 = Enable
IOUT5 = 40mA (Duty = 100%)
IOUT2 = 40mA (Duty = 50%)
16.5MHz noise
62
63
Write noise 1 (BD)
Write noise 2 (BD)
WNS1_BD
—
1.8
—
WNS2_BD
—
2.4
—
nA/ Hz
<LD Driver AC Characteristics>
64
Rise time
(CD, DVD resistance load)
Tr
—
0.5
—
ns
65
Fall time
(CD, DVD resistance load)
Tf
—
0.5
—
ns
66
Overshoot
(CD, DVD resistance load)
OVS+
—
10
—
%
67
Propagation delay 1
(CD, DVD resistance load)
DELAY1
—
5.6
—
ns
OUT1/2 output ON response time
from OUTEN2/3/4/5 differential input
68
Propagation delay 2
(CD, DVD resistance load)
DELAY2
—
5.3
—
ns
OUT1/2 output OFF response time
from OUTEN2/3/4/5 differential input
69
Rise time
(BD resistance load)
Tr_BD
—
0.5
—
ns
70
Fall time
(BD resistance load)
Tf_BD
—
0.5
—
ns
71
Overshoot
(BD resistance load)
OVS+_BD
—
10
—
%
72
Propagation delay 1
(BD resistance load)
DELAY1_BD
—
4.6
—
ns
OUTBD output ON response time
from OUTEN2/3/4/5 differential input
73
Propagation delay 2
(BD resistance load)
DELAY2_BD
—
4
—
ns
OUTBD output OFF response time
from OUTEN2/3/4/5 differential input
- 11 -
50mA to 100mA pulse,
settling 10% to 90%
Load = 5Ω//10pF
50mA to 100mA pulse,
settling 10% to 90%
Load = 10Ω//10pF
CXA2765ER
TEST
No.
Item
Symbol
Min.
Typ.
Max.
Unit
ZINR
518
740
962
Ω
Conditions
<I/O Characteristics>
74
Input resistance R, 5
IINR/5 input resistance
75
Input resistance 2, 3, 4
ZINW
700
1000
1300
Ω
IIN2/3/4 input resistance
76
Input current R, 2, 3, 4, 5
IIN
0
—
1
mA
IINR/2/3/4/5 input current
77
I/O band R
FBANDR
—
370
—
kHz
IINR = 200μA input
78
I/O band 2, 3, 4, 5
FBANDW
—
2.35
—
MHz
IIN2/3/4/5 = 400μA input
79
I/O gain R (CD, DVD)
GAINR
235
262
289
A/A
Gain from IINR input to OUT1/2 output
(IINR = 100μA to 200μA, OUT1/2 = 2.5V)
80
I/O gain 5 (CD, DVD)
GAIN5
235
262
289
A/A
Gain from IIN5 input to OUT1/2 output
(IIN5 = 100μA to 200μA, OUT1/2 = 2.5V)
81
I/O gain 2 (CD, DVD)
GAIN2
504
560
616
A/A
Gain from IIN2 input to OUT1/2 output
(IINR = 200μA, IIN2 = 100μA to 200μA,
OUT1/2 = 2.5V)
82
I/O gain 3 (CD, DVD)
GAIN3
405
450
495
A/A
Gain from IIN3 input to OUT1/2 output
(IINR = 200μA, IIN3 = 100μA to 200μA,
OUT1/2 = 2.5V)
83
I/O gain 4 (CD, DVD)
GAIN4
202
225
248
A/A
Gain from IIN4 input to OUT1/2 output
(IINR = 200μA, IIN4 = 100μA to 200μA,
OUT1/2 = 2.5V)
84
I/O linearity 2, 3, 4
(CD, DVD)
LINE
–3
—
3
%
Fix IINR to 200μA, and measure the
offset at IIN2/3/4 = 600μA in reference
to IIN2/3/4 = 100μA to 200μA,
respectively. OUT1/2 = 2.5V
85
I/O gain ratio 1 (CD, DVD)
GaRa1
0.9
1
1.1
—
IIN5/IINR gain ratio
86
I/O gain ratio 2 (CD, DVD)
GaRa2
0.72
0.8
0.88
—
IIN3/IIN2 gain ratio
87
I/O gain ratio 3 (CD, DVD)
GaRa3
0.36
0.4
0.44
—
IIN4/IIN2 gain ratio
88
I/O gain R (BD)
GAINR_BD
180
200
221
A/A
Gain from IINR input to OUTBD output
(IINR = 100μA to 200μA, OUTBD = 2.5V)
89
I/O gain 5 (BD)
GAIN5_BD
180
200
221
A/A
Gain from IIN5 input to OUTBD output
(IIN5 = 100μA to 200μA, OUTBD = 2.5V)
90
I/O gain 2 (BD)
GAIN2_BD
238
265
291
A/A
Gain from IIN2 input to OUTBD output
(IINR = 200μA, IIN2 = 100μA to 200μA,
OUTBD = 2.5V)
91
I/O gain 3 (BD)
GAIN3_BD
180
200
220
A/A
Gain from IIN3 input to OUTBD output
(IINR = 200μA, IIN3 = 100μA to 200μA,
OUTBD = 2.5V)
92
I/O gain 4 (BD)
GAIN4_BD
59
66
73
A/A
Gain from IIN4 input to OUTBD output
(IINR = 200μA, IIN4 = 100μA to 200μA,
OUTBD = 2.5V)
%
Fix IINR to 200μA, and measure the
offset at IIN2/3/4 = 600μA in reference
to IIN2/3/4 = 100μA to 200μA,
respectively. OUTBD = 2.5V
93
I/O linearity 2, 3, 4 (BD)
LINE_BD
–3
—
94
I/O gain ratio 1 (BD)
GaRa1_BD
0.91
1
1.12
—
IIN5/IINR gain ratio
95
I/O gain ratio 2 (BD)
GaRa2_BD
0.67
0.75
0.83
—
IIN3/IIN2 gain ratio
96
I/O gain ratio 3 (BD)
GaRa3_BD
0.22
0.25
0.28
—
IIN4/IIN2 gain ratio
- 12 -
3
CXA2765ER
TEST
No.
Item
Symbol
Min.
Typ.
Max.
Unit
Conditions
<High-frequency Modulation (HFM)>
97
Frequency variable range
VARIF
200
—
600
MHz
HFMF = 0 to 255dec
98
Frequency variance
FREQ
–10
—
10
%
HFMF = 80dec (@350MHz)
99
Frequency temperature
coefficient
TFREQ
—
–0.0035
—
%/°C
HFMF = 80dec (@350MHz)
100
Amplitude setting range
(CD, DVD)
VARIA
0
—
100
mAp-p
HFMF = 80dec (@350MHz),
HFMP = 0 to 255dec
Load = 5Ω
101
Amplitude setting range
(BD)
VARIA_BD
0
—
70
mAp-p
HFMF = 80dec (@350MHz),
HFMP = 31 to 255dec, LDCR2 = 00
Load = 10Ω
102
OSCEN response time – ON
OSCRES1
—
—
11
ns
OSCEN Disable → Enable
103
OSCEN response time – OFF
OSCRES2
—
—
11
ns
OSCEN Enable → Disable
<LDOFF>
104
LDOFF response time
LDOFFRES
—
—
10
ns
Time for the output current to fall to
10% when LDEN is changed from
High to Low.
105
Power supply monitor
circuit – LDOFF
EMON
3.1
3.5
—
V
VCC and Vcc_LDR voltages at which
LDOFF results.
106
Power supply monitor
circuit – LDON
EMOFF
—
3.75
4.15
V
VCC and Vcc_LDR voltages at which
LDOFF is canceled.
<VIMON>
107
VOP monitor upper limit
(CD, DVD)
VmoMax
4.90
5
5.05
V
VIMON = 001
VIMON voltage when 5V is applied to
OUT1/2.
108
VOP monitor lower limit
(CD, DVD)
VmoMin
0
0.7
1.1
V
VIMON = 001
VIMON voltage when 0V is applied to
OUT1/2.
109
VOP monitor DC
accuracy (CD, DVD)
VmoDC
3.9
4
4.1
V
VIMON = 001
VIMON voltage when 4V is applied to
OUT1/2.
110
VOP monitor pulse
accuracy (CD, DVD)
VmoPls
3.8
4
4.1
V
VIMON output voltage when a 3V to 4V,
duty 50%, 6ns pulse is input to OUT1/2.
(Peak hold accuracy)
111
VOP monitor hold
capability (CD, DVD)
VmoHd
–72
–53.5
–25
mV/μs
112
VOP monitor upper limit
(BD)
VmoMax_BD
2.4
2.5
2.6
V
VIMON = 001
VIMON voltage when 5V is applied to
OUTBD.
113
VOP monitor lower limit
(BD)
VmoMin_BD
0
—
0.15
V
VIMON = 001
VIMON voltage when 0V is applied to
OUTBD.
114
VOP monitor DC
accuracy (BD)
VmoDC_BD
0.4
0.5
0.6
V
VIMON = 001
VIMON voltage when 1V is applied to
OUTBD.
115
VOP monitor pulse
accuracy (BD)
VmoPls_BD
0.4
0.5
0.7
V
VIMON output voltage when a 1V to 2V,
duty 50%, 6ns pulse is input to
OUTBD. (Bottom hold accuracy)
116
VOP monitor hold
capability (BD)
VmoHd_BD
23
54
73
mV/μs
117
Temperature monitor
output voltage
TmoVout
—
1.34
—
V
118
Temperature monitor
temperature coefficient
Tmotemp
—
3.5
—
mV/°C
119
IOP monitor current
efficiency (BD only)
Iratio_BD
0.914
1
1.053
%
- 13 -
VIMON = 001
VIMON = 001
VIMON = 010, Tj = 70°C
VIMON = 010
VIMON = 100,
IMON/IOUTBD current ratio when
OUTBD = 40mA.
VIOPMON = 2V
CXA2765ER
Example of Representative Characteristics
High-frequency Modulation Characteristics
Control characteristics of HFMF and modulation frequency
HFMP = 80d
LDCR = 255d
700
600
Modulation frequency [MHz]
‹
500
400
300
200
100
0
0
32
64
96
128
160
192
Serial address 79h HFMF [dec]
- 14 -
224
256
CXA2765ER
28
27
26
IIN3
IIN2
IINR
0.1µ
29
IIN4
0.1µ
30
IIN5
0.1µ
31
GND1
0.1µ
32
IR
0.1µ
22k
Electrical Characteristics Measurement Circuit
0.1µ
OUTBD 25
1 VCC
10
2 OUTEN2
VCC_LDB 24
3 xOUTEN2
GND_LD 23
100
0.1µ
VIOPMON 22
4 OUTEN3
100
5 xOUTEN3
OUT2 21
CXA2765ER
5Ω
VCC_LDR 20
6 OUTEN4
0.1µ
100
7 xOUTEN4
OUT1 19
8 OUTEN5
LDEN 18
5
LDEN
100
xOSCEN
RDIS
GND2
VD3
SDIO
SCLK
SEN 17
OSCEN
9 xOUTEN5
10
11
12
13
14
15
16
SCLK
0.1µ
50
SDIO
100
Serial data
VCC
22µ
VCC_LDR
1µ
GND
22µ
1µ
GND
VCC_LDB
22µ
1µ
GND
- 15 -
SEN
(Serial data)
CXA2765ER
Serial Interface
The CXA2765ER performs IC control via the serial interface. The serial interface specifications are shown below.
Serial Address Bit Definition
Bit
A7
A6 to 0
Bit definition
Read/write select bit
0: Serial interface write mode
1: Serial interface read mode
Register address select bit
Transmission and reception are performed in 16-bit units consisting of 8 address bits and 8 data bits. Both the
address and data are MSB first. In the address, the A[7] bit switches between read and write mode, and the
A[6:0] bits are the register address. The read/write timing charts are shown below.
Timing Chart in Write Mode
High
SEN
(Pin 17)
Low
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15 16
High
SCLK
(Pin 16)
Low
MSB
SDIO
(Pin 15)
LSB MSB
LSB
A7 A6 A5 A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0
Address
High
Low
Data
The data written in the register is reflected to the various IC internal functions at the rising edge of the 16th
(last) SCLK signal.
Timing Chart in Read Mode
High
SEN
(Pin 17)
Low
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15 16
High
SCLK
(Pin 16)
Low
MSB
SDIO
(Pin 15)
LSB
A7 A6 A5 A4 A3 A2 A1 A0
MSB
LSB
High
D7 D6 D5 D4 D3 D2 D1 D0
Low
Address
Data
(Output data from the CXA2765ER)
MSB
Note) Depending on the flexible PC board condition, when the SDIO line and the SEN line use adjacent wiring,
SDIO signal fluctuations may be transmitted to the SEN line and make the control status unstable, with
the result that correct data cannot be read and written during serial transfer.
- 16 -
CXA2765ER
Address Map
(SDIO/SEN/SCLK)
Address
Name
Definition
78
MODELDD
LDD status (LDOFF/CD/DVD/BD)
Transfer skew check, input logic selection, and power supply monitor circuit control
79
HFMP
Modulation amplitude setting (CD/DVD: 0 to 100mAp-p, BD: 0 to 70mAp-p)
7A
HFMF
Modulation frequency setting (200MHz to 600MHz)
7B
EMISEL
HFM spectrum diffusion setting, monitor control
7C
LDCR
Output waveform adjustment
7D
CHSEL
Channel control method selection
Bit Map
Serial Address 78h
Bit
Symbol
7
—
6
EMVCCDIS
Power supply monitor circuit disable
0: Enable
1: Disable
5
SEL_CH5
CH5 input logic level selection
0: Differential input
1: Single input
4
SEL_CH2-4
CH2 to CH4 input logic level selection
0: Differential input
1: Single input
3
SEL_OSC
OSC CH input logic level selection
0: Differential input
1: Single input
2
SKEW
Skew check function
0: Normal operation
1: Transfer skew check mode
LDM
LDD output selection
00: LDOFF (Power save)
01: LD1
10: LD2
11: BD
1-0
Bit definition
Don’t care
- 17 -
CXA2765ER
Serial Address 79h
Bit definition
Bit
7-0
Symbol
HFMP
HFM amplitude setting
CD/DVD
BD
Resolution = 0.4mAp-p
0d: 0mAp-p
to
128d: 50mAp-p
to
255d: 100mAp-p
Resolution = 0.3mAp-p
31d: 0mAp-p
to
128d: 30mAp-p
to
255d: 70mAp-p
Serial Address 7Ah
Bit
7-0
Symbol
HFMF
Bit definition
HFM frequency setting
0d: 200MHz
to
255d: 600MHz
Serial Address 7Bh
Bit
Symbol
Bit definition
7-5
VIMON
V/I monitor output selection
000: OFF (monitor circuit power save)
001: VOP monitor output in accordance with LDM
010: Temperature sensor output
011: EMI countermeasure circuit period measurement mode
100: IOP output (BD_Read + MOD only)
101: MODFDAC measurement mode
110: MODADAC measurement mode
111: EMI countermeasure circuit spread measurement mode
4
EMIEN
HFM spectrum diffusion circuit enable
0: Disable
1: Enable
EMIP
HFM spectrum diffusion – modulation frequency
00: 0.01% (350MHz conversion = 35kHz)
01: 0.02% (350MHz conversion = 70kHz)
10: 0.04% (350MHz conversion = 140kHz)
11: 0.08% (350MHz conversion = 280kHz)
EMIS
HFM spectrum diffusion – diffusion frequency
00: 0.2% (350MHz conversion = 0.7MHz)
01: 0.4% (350MHz conversion = 1.4MHz)
10: 0.8% (350MHz conversion = 2.8MHz)
11: 1.6% (350MHz conversion = 5.6MHz)
3-2
1-0
- 18 -
CXA2765ER
Serial Address 7Ch
Bit
Symbol
Bit definition (BD)
Bit definition (DVD/CD)
7
LDCR5
LDD buffer current
0: Small current
1: Large current (fast waveform)
6
LDCR4
LDD buffer signal current ratio
0: 1:4
1: 2:4 (fast waveform)
—
5
LDCR3
LDD buffer bias current
0: Small bias current
1: Large bias current (fast waveform)
—
LDCR2
Snubber 2 (both Tr and Tf)
00: Slow waveform
01:
↓
10:
↓
11: Fast waveform
—
LDCR1
Snubber 1 (Tr only)
000: Slow waveform
001:
↓
010:
↓
011:
↓
100:
↓
101:
↓
110:
↓
111: Fast waveform
4-3
2-0
Ringing adjustment (Tr only)
0: Small
1: Large (fast waveform)
Overshoot adjustment (Tr only)
000: Small
001: ↓
010: ↓
011: ↓
100: ↓
101: ↓
110: ↓
111: Large (fast waveform)
Serial Address 7Dh
Bit
Symbol
7
—
Bit definition
—
6
CH5EN
Channel 5 register control
0: OFF
1: ON
5
CH4EN
Channel 4 register control
0: OFF
1: ON
4
CH3EN
Channel 3 register control
0: OFF
1: ON
3
CH2EN
Channel 2 register control
0: OFF
1: ON
2
REN
Read channel register control
0: OFF
1: ON
1
OSCEN
Channel OSC register control
0: OFF
1: ON
0
CH_CONT
Channel control method selection
0: Normal (pin control)
1: Register control mode
Note) When data is not written to address 78h to 7Dh after power-on, the registers at addresses 78h to 7Dh
are undetermined.
- 19 -
CXA2765ER
Description of Operation
1. Power-on and power-off sequences
The following sequences are recommended to protect the laser when turning the power on and off.
Power-on sequence
VCC 5V power supply ON
VCC_LDR 5V power supply ON
(These power supplies may be turned on
simultaneously or in any order.)
(LDEN = Low)
VCC_LDB 8V
power supply ON
(LDEN = Low)
Register settings
(LDEN = Low)
LDEN = High
Turn on the VCC_LDB 8V power supply after the VCC 5V and
VCC_LDR 5V power supplies have risen to 1V or more.
The IC control status is unstable when the VCC 5V and
VCC_LDR 5V power supplies are less than 1V, so if the
VCC_LDB 8V power supply rises to 7V or more in this condition,
current of approximately 10mA may flow to the laser.
Power-off sequence
Select "00" with register
LDM[1:0] or set
LDEN = Low.
VCC_LDB 8V
power supply OFF
VCC 5V power supply OFF
VCC_LDR 5V power supply OFF
When LDEN is Low, current does not flow to the laser for any power-off sequence, but the above sequence is recommended.
Note) When the power is forcibly turned off during laser emission, current of the set level or more may flow to
the laser.
The conditions for current of the set level or more flowing to the laser are VCC < 3/5 × VCC_LDR and
VCC_LDR ≥ 2V (shaded area in the figure below).
To avoid problems, VCC_LDR should be turned off first, or VCC and VCC_LDR should be turned off at
approximately the same time.
In addition, current of the set level or more does not flow to the laser regardless of the VCC_LDB 8V
power-off order.
VCC_LDR
VCC
→ Supply voltage [V]
5
VCC < 3/5 × VCC_LDR and VCC_LDR ≥ 2V
3
2
0
→ Time
Fig. 1. VCC and VCC_LDR Power-off
- 20 -
CXA2765ER
2. LD driving current setting
The currents controlled by the current setting pins IINR, IIN2, IIN3, IIN4 and IIN5 are output from the OUT1,
OUT2 and OUTBD pins.
The output driving currents from the OUT pins can be set independently for IINR, IIN2, IIN3, IIN4 and IIN5 by
RDIS, OUTEN and xOUTEN.
Note that output switching for OUT1 (Pin 19), OUT2 (Pin 21) and OUTBD (Pin 25) is performed by serial
address 78h bit[1:0] LDM.
3. Modulator circuit
Output modulation is turned on and off by the OSCEN and xOSCEN pins.
The modulation frequency can be varied by serial address 7Ah bit[7:0] HFMF, and the modulation amplitude
can be varied by serial address 79h bit[7:0] HFMP.
Modulation Amplitude Setting
BD mode
Modulation amplitude [mAp-p]
Modulation amplitude [mAp-p]
CD/DVD mode
0
0
HFMP DAC setting [dec]
31
HFMP DAC setting [dec]
Modulation Level Adjustment
BD mode
CD/DVD mode
Imod
Iread
Iread
IINR input current [mA]
1/2Imod
IINR input current [mA]
1/2Imod
Iread < 1/2Imod
Modulation level [mAp-p]
Modulation level [mAp-p]
Imod
Iread < 1/2Imod
Iread > 1/2Imod
Iread > 1/2Imod
4. IR pin
The IR pin external resistor should be fixed to 22kΩ.
The IR pin aims to reduce variance in the modulation frequency that depends on the internal resistance, and
is designed based on fixed resistance of 22kΩ.
- 21 -
CXA2765ER
Description of Functions
Logic Tables
Output control (Differential input)
(X: Don't care)
LDEN
RDIS
OUTEN2
OUTEN3
OUTEN4
OUTEN5
XOSCEN
L
X
X
X
X
X
X
H
H
L
L
L
L
H
OUT output
(OUT1/OUT2
/OUTBD)
PS
OFF
Power
save
LD
OFF
H
L
L
L
L
L
H
H
L
L
L
L
L
L
H
L
L
L
L
L
H
H
L
L
L
L
H
H
IINR
IINR (Modulation IINR
ON)
IINR +
IIN5
H
L
H
L
L
H
H
H
L
H
H
L
H
H
H
L
H
L
H
H
H
H
L
H
H
H
H
H
IINR + IIN5 +
IINR + IIN5 + IINR + IIN5 + IINR + IIN5 +
IIN2 + IIN3 +
IIN2
IIN2 + IIN3
IIN2 + IIN4
IIN4
IIN3
IIN3
IIN4
IIN4
IIN2
OUT output
IIN5
IINR
0mA
Output control (Single input)
(X: Don't care)
LDEN
RDIS
OUTEN2
OUTEN3
OUTEN4
OUTEN5
XOSCEN
L
X
X
X
X
X
X
H
H
L
L
L
L
H
OUT output
(OUT1/OUT2
/OUTBD)
PS
OFF
Power
save
LD
OFF
H
L
L
L
L
X
H
H
L
L
L
L
X
L
H
L
L
L
L
X
H
IINR
IINR (Modulation IINR
ON)
H
H
L
L
L
H
H
H
H
H
L
L
H
H
H
H
H
H
L
H
H
IIN5
IIN5 + IIN2
H
H
H
L
H
H
H
H
H
H
H
H
H
H
IIN5 + IIN2 + IIN5 + IIN2 + IIN5 + IIN2 +
IIN3
IIN4
IIN3 + IIN4
IIN3
IIN3
IIN4
IIN4
IIN2
OUT output
IIN5
IINR
0mA
Note) When serial address 78h bit[5] SEL_CH5 is set High (single input), the IINR channel and the IIN5 channel cannot be
added to prevent glitches.
- 22 -
CXA2765ER
Modulation control
DVD/CD mode
(X: Don't care)
LDEN
RDIS
OUTEN2
OUTEN3
OUTEN4
OUTEN5
XOSCEN
L
X
X
X
X
X
X
Modulation
output
(OUT1/OUT2)
PS
H
L
H
H
H
H
H
H
L
L
L
L
L
L
H
H
H
L
L
L
L
H
H
L
H
L
L
L
H
H
L
L
H
L
L
H
H
L
L
L
H
L
BD mode
(X: Don't care)
L
X
X
X
X
X
X
Modulation
output
(OUTBD)
PS
H
H
H
H
L
L
L
Modulation Modulation Modulation Modulation Modulation Modulation Modulation Modulation
ON
ON
ON
ON
OFF
ON
ON
ON
(IIN5) (IINR, IIN2) (IIN2, IIN3)
(IIN4)
(IINR)
(IIN2)
(IIN3)
Note) 1. Modulation control is independent of the data timing signal.
2. Modulation is not output from the OUT pin without the input current to IINR.
LDEN
RDIS
OUTEN2
OUTEN3
OUTEN4
OUTEN5
XOSCEN
H
L
H
L
L
L
L
H
X
X
X
X
X
H
H
L
X
X
X
X
L
Modulation Modulation
OFF
ON
(IINR)
Note) Modulation is not output from the OUT pin without the input current to IINR.
- 23 -
CXA2765ER
Power Supply Monitor Circuit
The CXA2765ER has a built-in power supply monitor circuit to ensure safe laser emission. This function
monitors the two supply voltages VCC (Pin 1) and VCC_LDR (Pin 20). See the “Electrical Characteristics” table
for the respective threshold values. When this function detects that either of these power supplies has dropped,
it outputs the LDOFF (power save) signal and turns off the laser driving current.
The power supply monitor circuit function can be enabled or disabled by serial address 78h bit[6] EMVCCDIS.
VCC VCC_LDR
(Pin 1) (Pin 20)
LDOFF
EMVCCDIS
(Register)
Power Supply Monitor Circuit Block Diagram
VOP Monitor Function
The VOP voltage at the laser end can be monitored.
When serial address 7Bh bit[7:5] are set to “001”, the peak hold voltage (CD/DVD) or the bottom hold voltage
(BD) is output from VIOPMON (Pin 22).
LDEN1
DVD Driver
OUT1
(Pin 19)
VIOPMON
(Register)
LDEN2
VIOPMON
(Pin 22)
CD Driver
OUT2
(Pin 21)
Peak Hold
VCC_LDB
(Pin 24)
BD Driver
BDEN
OUTBD
(Pin 25) 10k
Bottom Hold
10k
VOP Monitor Block Diagram
- 24 -
CXA2765ER
Skew Check Function
Normal mode or skew check mode can be selected by serial address 78h bit[2] SKEW.
The skew check mode is the function that detects the timing offset of recording signals input to the CXA2765ER
that occurs between channels due to the effects of the flexible PC board and other factors.
It can detect the timing offset between a total of 5 channels (4 write channels and one OSC channel).
The AND of the recording signals for each channel input to the CXA2765ER is output from the IIN2 channel path.
The AND is output, so when the timing is offset between channels, the recording waveform pulse width narrows
and the output recording power drops. Adjust the timing of the recording signal for each channel to maximize
the output recording power.
LDD input (before adjustment)
Write strategy generator (WSG) output
OUTEN2
Transfer via
Flexible PC
Board
OUTEN3
LDD input (after adjustment)
OUTEN2
OUTEN2
OUTEN3
OUTEN3
LDD output
IIN2
IIN3
IIN4
IIN5
HFM
LDD output
OUTEN2 2
In Skew Mode
to Drive
xOUTEN2 3
OUTEN3 4
xOUTEN3 5
Disable
OUTEN4 6
xOUTEN4 7
Disable
OUTEN5 8
xOUTEN5 9
Disable
OSCEN 10
xOSCEN 11
Disable
- 25 -
CXA2765ER
HFM Spectrum Diffusion Function
HFM spectrum
The HFM spectrum diffusion function is enabled by selecting “1” at Bit4 EMIEN of serial address 7Bh, and the
HFM frequency is diffused as shown in the figure below.
Frequency
Modulation frequency + diffusion frequency
(HFMF)
(EMIS)
HFM Spectrum Diffusion Frequency Measurement
When serial address 7Bh bit[7:5] are set to “011” or “111”, the HFM spectrum diffusion modulation frequency
(EMIP) and diffusion frequency (EMIS) can be measured at VIOPMON (Pin 22).
Modulation
frequency
EMIS
HFMF setting
EMIP
Time
- 26 -
CXA2765ER
Channel control
Pin control or bit[6:1] register control can be selected by serial address 7Dh bit[0] CH_CONT.
CH_CONT (reg)
SEL
Low: A
High: B
A
OSCEN (Pin 10)
OSCEN (reg)
SEL
OSC_EN
B
A
OUT_EN2
SEL
B
A
OUT_EN3
SEL
B
A
OUT_EN4
SEL
B
A
SEL
OUT_EN5
B
OUTEN2 (Pin 2)
CH2EN (reg)
OUTEN3 (Pin 4)
CH3EN (reg)
OUTEN4 (Pin 6)
CH4EN (reg)
OUTEN5 (Pin 8)
CH5EN (reg)
SEL_CH5 (reg)
A
SEL
A
B
SEL
RDIS_EN
B
RDIS (Pin 12)
REN (reg)
Read channel and cool channel glitch countermeasures in single input mode
When serial address 78h bit[5] SEL_CH5 is set High (single input), a timing signal which has had glitch
countermeasures applied by the read channel and cool channel is output on OUT_EN5. Therefore, the read
channel and cool channel cannot be added in single input mode. When set Low (differential input (LVDS)), the
cool channel can be added to the read channel to generate the write power.
- 27 -
CXA2765ER
Changes in the output waveform characteristics by the register settings
The waveform characteristics (rise time (tr), fall time (tf), overshoot (OVS+), undershoot (OVS–)) of the output
LD driving current change greatly according to the LDD, the LD and the LD load (in the mounted condition)
connected to each output pin OUT1 (Pin 19), OUT2 (Pin 21) and OUTBD (Pin 25).
The CXA2765ER can adjust the LDD output waveform characteristics by the register settings. These controls
are performed by Serial Address 7Ch. However, in BD mode the current consumption of the 5V block increases
as the LDCR5, LDCR4 and LDCR3 settings are increased (faster waveform). In addition, take care in LDCR2
setting because it affects high-frequency modulation amplitude. Modulation amplitude will be larger as LDCR2
setting changes from 00 to 11. In DVD/CD mode the current consumption of the 5 V block increases as the
LDCR5 and LDCR1 settings are increased (faster waveform).
<BD waveform adjustment>
LDCR1 = 111
LDCR3 = 1
LDCR2 = 11
LDCR3 = 0
LDCR1 = 000
LDCR2 = 00
LDCR2 = 00
LDCR4 = 1
LDCR5 = 1
LDCR2 = 11
LDCR4 = 0
LDCR5 = 0
<DVD/CD waveform adjustment>
LDCR1 = 111
LDCR5 = 1
LDCR5 = 0
LDCR1 = 000
- 28 -
CXA2765ER
Notes on Operation
‹ Make the wiring as short as possible between the output OUT pins (Pins 19, 21 and 25) and the laser diode,
and between the VCC_LDR pin and the external decoupling capacitor. As the wiring length increases, the
effects of the wiring inductance cause the output waveform overshoot and undershoot to increase.
‹ The VCC_LDR pin’s external decoupling capacitance ground can be grounded to the GND grounding the
load from the OUT pin. This reverses the phase of the drive waveform at the OUT and VCC_LDR and moves
in the direction that suppresses overshoots and undershoots.
‹ Place the external resistor connected to the IR pin as close to the IC as possible.
As the wiring length between the IR pin and the external resistor increases, external disturbance easily
enters the reference current generated by the IR pin, and may cause noise to worsen or other problems.
In addition, when capacitance is applied to the IR pin, the phase margin with the internal circuits is reduced
and oscillation easily occurs.
‹ Temperature guarantee
Thermal resistance (θj-a) when the CXA2765ER is mounted on PWB varies according to the set (PWB) and
because it is difficult to predict along with the tendency for higher power for power consumption (PO), the
following points should be considered when using.
Use in a range that the junction temperature (Tj) does not exceed 150°C (Tjmax). Also, Use with the thermal
resistance (θj-a) of the PWB mounting lowered so that power consumption (PO) is below allowable power
dissipation (PD).
It is possible to lower the thermal resistance (θj-a) when mounted on PWB by widening the GND region with
the set PWB or releasing heat to the set chassis, etc.
Find the thermal resistance (θj-a) when mounted on PWB and power consumption (PO) using the following
method.
PO = (ICC × VCC) – (IOP × VOP): DVD/CD mode
PO = (ICC × VCC) + (IOP × VOP): BD mode
ICC: IC current consumption when operating (including IOP in DVD/CD mode)
IOP: Output drive current flowed from the OUT pin to the laser diode
VOP: Operating voltage of the laser diode
Thermal resistance (θj-a) when mounted on PWB
The thermal resistance (θc-a) is easily obtained by measuring the package surface temperature using a
thermo couple or a radiation thermometer.
In order to improve the precision of measurement, it is desired to calculate by the following formula.
ΔPackage surface temperature when IOP is variable/ΔPO
Assume the thermal resistance (θj-c) to be approximately 2°C/W.
y Thermal resistance (θj-a) is
θj-a = θj-c + θc-a
y Allowable power dissipation (PD) ≥ PO [W]
PD = (150°C – Ambient temperature)/θj-a
- 29 -
CXA2765ER
Application Circuit 1
28
27
26
IIN3
IIN2
IINR
0.1µ
29
IIN4
0.1µ
30
IIN5
0.1µ
31
GND1
0.1µ
32
IR
22k
0.1µ
Current DAC
0.1µ
LD for BD
OUTBD 25
1 VCC
2 OUTEN2
VCC_LDB 24
3 xOUTEN2
GND_LD 23
0.1µ
4 OUTEN3
Timing
control
logic
(LVDS or
CMOS)
VIOPMON 22
5 xOUTEN3
OUT2 21
CXA2765ER
LD for CD
6 OUTEN4
VCC_LDR 20
0.1µ
7 xOUTEN4
OUT1 19
LD for DVD
8 OUTEN5
LDEN 18
xOSCEN
RDIS
GND2
VD3
SDIO
SCLK
SEN 17
OSCEN
9 xOUTEN5
Mode
control
logic
(CMOS)
10
11
12
13
14
15
16
0.1µ
Serial interface
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for
any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
- 30 -
CXA2765ER
Application Circuit 2
28
27
26
IIN3
IIN2
IINR
0.1µ
29
IIN4
0.1µ
30
IIN5
0.1µ
31
GND1
0.1µ
32
IR
22k
0.1µ
Current DAC
0.1µ
LD for BD
OUTBD 25
1 VCC
2 OUTEN2
VCC_LDB 24
3 xOUTEN2
GND_LD 23
0.1µ
4 OUTEN3
Timing
control
logic
(LVDS or
CMOS)
VIOPMON 22
5 xOUTEN3
OUT2 21
CXA2765ER
LD for CD
6 OUTEN4
VCC_LDR 20
7 xOUTEN4
0.1µ
OUT1 19
LD for DVD
8 OUTEN5
Mode
control
logic
(CMOS)
xOSCEN
RDIS
GND2
VD3
SDIO
SCLK
SEN 17
OSCEN
9 xOUTEN5
LDEN 18
10
11
12
13
14
15
16
0.1µ
Serial interface
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for
any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
- 31 -
CXA2765ER
Package Outline
(Unit: mm)
LEAD PLATING SPECIFICATIONS
ITEM
- 32 -
SPEC.
LEAD MATERIAL
COPPER ALLOY
SOLDER COMPOSITION
Sn-Bi Bi:1-4wt%
PLATING THICKNESS
5-18μm
Sony Corporation