CXD3410GA
Timing Generator and Signal Processor for Frame Readout CCD Image Sensor
Description
The CXD3410GA is a timing generator and CCD
signal processor IC for the ICX202/232, ICX224/284
CCD image sensor.
Features
Timing generator functions
Horizontal drive frequency 12 to 18MHz
(Base oscillation frequency 24 to 36MHz)
Supports frame readout/draft (quadruple speed)
High-speed/low-speed shutter function
Horizontal and vertical drivers for CCD image
sensor
CCD signal processor functions
Correlated double sampling
Programmable gain amplifier (PGA) allows gain
adjustment over a wide range (6 to +42dB)
10-bit A/D converter
Chip Scale Package (CSP):
CSP allows vast reduction in the CCD camera
block footprint
Applications
Digital still cameras
Structure
Silicon gate CMOS IC
Applicable CCD Image Sensors
ICX202 (1/3", 1250K pixels)
ICX232 (1/3.6", 1250K pixels)
ICX224 (1/2", 2020K pixels)
ICX284 (1/2.7", 2020K pixels)
Absolute Maximum Ratings
Supply voltage
V
DD
a, V
DD
b, V
DD
c, V
DD
d
V
SS
0.3 to +7.0
V
V
DD
e, V
DD
f, V
DD
g
V
SS
0.3 to +4.0
V
VL
10.0 to V
SS
V
VH
VL 0.3 to +26.0
V
Input voltage (analog)
V
IN
V
SS
0.3 to V
DD
+ 0.3
V
Input voltage (digital)
V
I
V
SS
0.3 to V
DD
+ 0.3
V
Output voltage
V
O1
V
SS
0.3 to V
DD
+ 0.3
V
V
O2
VL 0.3 to V
SS
+ 0.3
V
V
O3
VL 0.3 to VH + 0.3
V
Operating temperature
Topr
20 to +75
C
Storage temperature
Tstg
55 to +125
C
Recommended Operating Conditions
Supply voltage
V
DD
b
3.0 to 5.5
V
V
DD
a, V
DD
c, V
DD
d
3.0 to 3.6
V
VM
0.0
V
VH
14.5 to 15.5
V
VL
7.0 to 8.0
V
V
DD
e, V
DD
f, V
DD
g
3.0 to 3.6
V
Operating temperature
Topr
20 to +75
C
1
E00Z01A26
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.
96 pin LFLGA (Plastic)
2
CXD3410GA
Block Diagram
C7
C3
A1
NC
A2
NC
D8
C2
D7
C1
B8
AV
DD3
B6
AV
DD4
B9
AV
SS3
A6
AV
SS4
C5
AV
SS5
A3
SCK2
A4
SSI2
B4
SEN2
A5
TEST3
C4
TEST4
B5
TEST5
E2
DV
DD1
F2
DV
SS3
F3
DV
DD2
E3
DV
SS1
F1
B3
DV
SS2
D0 (LSB)
Latch
Serial Port
Register
DAC
PGA
CDS
ADC
Preblanking
Dummy Pixel
Auto Zero
Pulse Generator
V Driver
Serial Port
Register
1/2
Black Level
Auto Zero
B2
D1
B1
D2
C3
D3
C2
D4
C1
D5
D3
D6
D2
D7
D1
D8
E1
D9 (MSB)
G1
ADCLKI
G2
CLPOBI
G3
CLPDMI
L3
V
SS4
H1
ADCLK
H2
CLPOB
H3
CLPDM
J3
V
SS5
L1
OSCI
K1
OSCO
J1
CKI
J2
CKO
K2
MCKO
N8
DSGAT
L2
SSI1
M6
VL
L4
VM
M5
VH
M9
WEN
N9
ID
J7
V
SS3
J9
H2
J8
H1
H9
V
DD3
K9
V
SS2
K8
RG
K7
V
DD2
H8
V
DD4
H7
XRS
G7
PBLK
G8
XSHD
G9
XSHP
F7
PBLKI
F8
XSHDI
E7
AV
SS2
F9
XSHPI
D9
AV
SS1
E8
AV
DD2
E9
AV
DD1
C9
CCDIN
C6
C9
A7
C8
B7
C7
A8
AV
SS6
A9
AV
DD5
C8
C4
M1
SCK1
N1
SEN1
N3
V
SS6
L7
V
SS1
K3
V
DD5
L9
V
DD1
M2
VD
N2
HD
N7
SUB
N4
V4
N6
V3B
V3A
L6
V2
M4
N5
V1B
M7
TEST2
M3
TEST1
M8
RST
L8
EBCKSM
L5
V1A
3
CXD3410GA
Pin Configuration (Top View)
NC
D2
D5
D8
D9
DV
SS2
ADCLKI
ADCLK
CKI
OSCO
OSCI
SCK1
SEN1
A
B
C
D
E
F
G
H
J
K
L
M
N
NC
D1
D4
D7
DV
DD1
DV
SS3
CLPOBI
CLPOB
CKO
MCKO
SSI1
VD
HD
SCK2
D0
D3
D6
DV
SS1
DV
DD2
CLPDMI
CLPDM
V
SS5
V
DD5
V
SS4
TEST1
V
SS6
SSI2
SEN2
TEST4
VM
V2
V4
TEST3
TEST5
AV
SS5
V1A
VH
V1B
AV
SS4
AV
DD4
C9
V3A
VL
V3B
C8
C7
C3
C1
AV
SS2
PBLKI
PBLK
XRS
V
SS3
V
DD2
V
SS1
TEST2
SUB
AV
SS6
AV
DD3
C4
C2
AV
DD2
XSHDI
XSHD
V
DD4
H1
RG
EBCKSM
RST
DSGAT
AV
DD5
AV
SS3
CCDIN
AV
SS
1
AV
DD1
XSHPI
XSHP
V
DD3
H2
V
SS2
V
DD1
WEN
ID
1
2
3
4
5
6
7
8
9
4
CXD3410GA
Pin Description
No connected. (Open)
No connected. (Open)
CCD signal processor block serial interface clock input. (Schmitt trigger)
CCD signal processor block serial interface data input. (Schmitt trigger)
CCD signal processor block test input 3. Connect to DV
SS
.
CCD signal processor block analog GND.
Capacitor connection.
CCD signal processor block analog GND.
CCD signal processor block analog power supply.
ADC output.
ADC output.
ADC output (LSB).
CCD signal processor block serial interface enable input. (Schmitt trigger)
CCD signal processor block test input 5. Connect to DV
DD
.
CCD signal processor block analog power supply.
Capacitor connection.
CCD signal processor block analog power supply.
CCD signal processor block analog GND.
ADC output.
ADC output.
ADC output.
CCD signal processor block test input 4. Connect to DV
SS
.
CCD signal processor block analog GND.
Capacitor connection.
Capacitor connection.
Capacitor connection.
CCD output signal input.
ADC output.
ADC output.
ADC output.
Capacitor connection.
Capacitor connection.
CCD signal processor block analog GND.
ADC output (MSB).
CCD signal processor block digital power supply. (Power supply for ADC)
A1
A2
A3
A4
A5
A6
A7
A8
A9
B1
B2
B3
B4
B5
B6
B7
B8
B9
C1
C2
C3
C4
C5
C6
C7
C8
C9
D1
D2
D3
D7
D8
D9
E1
E2
NC
NC
SCK2
SSI2
TEST3
AV
SS4
C8
AV
SS6
AV
DD5
D2
D1
D0
SEN2
TEST5
AV
DD4
C7
AV
DD3
AV
SS3
D5
D4
D3
TEST4
AV
SS5
C9
C3
C4
CCDIN
D8
D7
D6
C1
C2
AV
SS1
D9
DV
DD1
--
--
I
I
I
--
--
--
--
O
O
O
I
I
--
--
--
--
O
O
O
I
--
--
--
--
I
O
O
O
--
--
--
O
--
Pin
No.
Symbol
I/O
Description
5
CXD3410GA
CCD signal processor block digital GND. (GND for ADC)
CCD signal processor block analog GND.
CCD signal processor block analog power supply.
CCD signal processor block analog power supply.
CCD signal processor block digital GND.
CCD signal processor block digital GND.
CCD signal processor block digital power supply.
Pulse input for horizontal and vertical blanking period pulse cleaning. (Schmitt trigger)
CCD data level sample-and-hold pulse input. (Schmitt trigger)
CCD precharge level sample-and-hold pulse input. (Schmitt trigger)
Clock input for analog/digital conversion. (Schmitt trigger)
CCD optical black signal clamp pulse input. (Schmitt trigger)
CCD dummy signal clamp pulse input. (Schmitt trigger)
Pulse output for horizontal and vertical blanking period pulse cleaning.
CCD data level sample-and-hold pulse output.
CCD precharge level sample-and-hold pulse output.
Clock output for analog/digital conversion.
CCD optical black signal clamp pulse output.
CCD dummy signal clamp pulse output.
Sample-and-hold pulse output for analog/digital conversion phase alignment.
Timing generator block digital power supply. (Power supply for CDS block)
Timing generator block 3.0 to 5.0V power supply. (Power supply for H1/H2)
Inverter input.
Inverter output.
Timing generator block digital GND.
Timing generator block digital GND.
CCD horizontal register clock output.
CCD horizontal register clock output.
Inverter output for oscillation. When not used, leave open or connect a capacitor.
System clock output for signal processor IC.
Timing generator block digital power supply. (Power supply for common logic block)
Timing generator block digital power supply. (Power supply for RG)
CCD reset gate pulse output.
Timing generator block digital GND.
Inverter input for oscillation. When not used, fix to low.
E3
E7
E8
E9
F1
F2
F3
F7
F8
F9
G1
G2
G3
G7
G8
G9
H1
H2
H3
H7
H8
H9
J1
J2
J3
J7
J8
J9
K1
K2
K3
K7
K8
K9
L1
DV
SS1
AV
SS2
AV
DD2
AV
DD1
DV
SS2
DV
SS3
DV
DD2
PBLKI
XSHDI
XSHPI
ADCLKI
CLPOBI
CLPDMI
PBLK
XSHD
XSHP
ADCLK
CLPOB
CLPDM
XRS
V
DD4
V
DD3
CKI
CKO
V
SS5
V
SS3
H1
H2
OSCO
MCKO
V
DD5
V
DD2
RG
V
SS2
OSCI
--
--
--
--
--
--
--
I
I
I
I
I
I
O
O
O
O
O
O
O
--
--
I
O
--
--
O
O
O
O
--
--
O
--
I
Pin
No.
Symbol
I/O
Description
6
CXD3410GA
Timing generator block serial interface data input.
Schmitt trigger input/No protective diode on power supply side.
Timing generator block digital GND.
Timing generator block digital GND. (GND for vertical driver)
CCD vertical register clock output.
CCD vertical register clock output.
Timing generator block digital GND.
Checksum enable.
High: Checksum invalid, Low: Checksum valid
(With pull-down resistor)
Timing generator block digital power supply.(Power supply for common logic block)
Timing generator block serial interface clock input.
Schmitt trigger input/No protective diode on power supply side.
Vertical sync signal input.
Timing generator block test input 1.
Normally fix to GND.
(With pull-down resistor)
CCD vertical register clock output.
Timing generator block 15.0V power supply. (Power supply for vertical driver)
Timing generator block 7.5V power supply. (Power supply for vertical driver)
Timing generator block test input 2.
Normally fix to GND.
(With pull-down resistor)
Timing generator block reset input.
High: Normal operation, Low: Reset control
Normally apply reset during power-on.
Schmitt trigger input/No protective diode on power supply side
Memory write timing pulse output.
Timing generator block serial interface strobe input.
Schmitt trigger input/No protective diode on power supply side
Horizontal sync signal input.
Timing generator block digital GND.
CCD vertical register clock output.
CCD vertical register clock output.
CCD vertical register clock output.
CCD electronic shutter pulse output.
Pulse generator enable.
High: enable, Low: disable
(Schmitt trigger input/no protective diode on power supply side)
Vertical direction line identification pulse output.
L2
L3
L4
L5
L6
L7
L8
L9
M1
M2
M3
M4
M5
M6
M7
M8
M9
N1
N2
N3
N4
N5
N6
N7
N8
N9
SSI1
V
SS4
VM
V1A
V3A
V
SS1
EBCKSM
V
DD1
SCK1
VD
TEST1
V2
VH
VL
TEST2
RST
WEN
SEN1
HD
V
SS6
V4
V1B
V3B
SUB
DSGAT
ID
I
--
--
O
O
--
I
--
I
I
I
O
--
--
I
I
O
I
I
--
O
O
O
O
I
O
Pin
No.
Symbol
I/O
Description
7
CXD3410GA
Electrical Characteristics
Timing Generator Block Electrical Characteristics
DC Characteristics
(Within the recommended operating conditions)
V
DD2
V
DD3
V
DD4
V
DD1
, V
DD5
RST, SCK1,
SSI1, SEN1,
DSGAT
TEST1,
TEST2
EBCKSM
VD, HD
H1, H2
RG
XSHP, XSHD,
XRS, PBLK,
CLPOB,
CLPDM,
ADCLK
CKO
MCKO
ID, WEN
V1A, V1B,
V3A, V3B,
V2, V4
SUB
V
DD
a
V
DD
b
V
DD
c
V
DD
d
V
IH1
V
IL1
V
IH2
V
IL2
V
IH3
V
IL3
V
OH1
V
OL1
V
OH2
V
OL2
V
OH4
V
OL4
V
OH5
V
OL5
V
OH6
V
OL6
I
OL
I
OM1
I
OM2
I
OH
I
OSL
I
OSH
3.0
3.0
3.0
3.0
0.7V
DD
d
0.8V
DD
d
0.8V
DD
d
V
DD
b 0.8
V
DD
a 0.8
V
DD
d 0.8
V
DD
d 0.8
V
DD
d 0.8
10.0
5.0
5.4
3.3
3.3
3.3
3.3
3.6
5.5
3.6
3.6
0.3V
DD
d
0.2V
DD
d
0.2V
DD
d
0.4
0.4
0.4
0.4
0.4
5.0
7.2
4.0
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
mA
mA
mA
mA
mA
mA
Feed current where I
OH
= 22.0mA
Pull-in current where I
OL
= 14.4mA
Feed current where I
OH
= 3.3mA
Pull-in current where I
OL
= 2.4mA
Feed current where I
OH
= 10.4mA
Pull-in current where I
OL
= 7.2mA
Feed current where I
OH
= 10.4mA
Pull-in current where I
OL
= 7.2mA
Feed current where I
OH
= 2.4mA
Pull-in current where I
OL
= 4.8mA
V1A/B, V2, V3A/B, V4 = 8.25V
V1A/B, V2, V3A/B, V4 = 0.25V
V1A/B, V3A/B = 0.25V
V1A/B, V3A/B = 14.75V
SUB = 8.25V
SUB = 14.75V
Supply voltage 1
Supply voltage 2
Supply voltage 3
Supply voltage 4
Input
voltage 1
1
Input
voltage 2
2
Input
voltage 3
3
Input
voltage 4
Output
voltage 1
Output
voltage 2
Output
voltage 3
Output
voltage 4
Output
voltage 5
Output
voltage 6
Output
current 1
Output
current 2
Item
Pins
Symbol
Conditions
Min.
Typ.
Max.
Unit
1
This input pin is a schmitt trigger input and it does not have protective diode of the power supply side in the IC.
2
These input pins are with pull-down resistor in the IC.
3
These input pins are with pull-down resistor in the IC and they do not have protective diode of the power
supply side in the IC.
Note) The above table indicates the condition for 3.3V drive.
V
OH3
Feed current where I
OH
= 3.3mA
V
DD
c 0.8
V
V
OL3
Pull-in current where I
OL
= 2.4mA
0.4
V
V
V
0.8V
DD
d
V
I +
V
I
0.2V
DD
d
8
CXD3410GA
Inverter I/O Characteristics for Oscillation
(Within the recommended operating conditions)
Item
Logical Vth
Input
voltage
Output
voltage
Feedback
resistor
Oscillation
frequency
Pins
OSCI
OSCI
OSCO
OSCI, OSCO
OSCI, OSCO
Symbol
LVth
V
IH
V
IL
V
OH
V
OL
RFB
f
Conditions
Feed current where I
OH
= 3.6mA
Pull-in current where I
OL
= 2.4mA
V
IN
= V
DD
d or V
SS
Min.
0.7V
DD
d
V
DD
d 0.8
500k
20
Typ.
V
DD
d/2
2M
Max.
0.3V
DD
d
0.4
5M
50
Unit
V
V
V
V
V
MHz
Item
Logical Vth
Input
voltage
Input
amplitude
Pins
CKI
Symbol
LVth
V
IH
V
IL
V
IN
Conditions
fmax 50MHz sine wave
Min.
0.7V
DD
d
0.3
Typ.
V
DD
d/2
Max.
0.3V
DD
d
Unit
V
V
V
Vp-p
Item
Rise time
Fall time
Output noise voltage
Symbol
TTLM
TTMH
TTLH
TTML
TTHM
TTHL
VCLH
VCLL
VCMH
VCML
Conditions
VL to VM
VM to VH
VL to VH
VM to VL
VH to VM
VH to VL
Min.
200
200
30
200
200
30
Typ.
350
350
60
350
350
60
Max.
500
500
90
500
500
90
1.0
1.0
1.0
1.0
Unit
ns
ns
ns
ns
ns
ns
V
V
V
V
Inverter Input Characteristics for Base Oscillation Clock Duty Adjustment
(Within the recommended operating conditions)
Note) Input voltage is the input voltage characteristics for direct input from an external source. Input amplitude
is the input amplitude characteristics in the case of input through a capacitor.
Switching Characteristics
(VH = 15.0V, VM = GND, VL = 7.5V)
Notes)
1. The MOS structure of this IC has a low tolerance for static electricity, so full care should be given for
measures to prevent electrostatic discharge.
2. For noise and latch-up countermeasures, be sure to connect a by-pass capacitor (0.1F or more) between
each power supply pin (VH, VL) and GND.
3. To protect the CCD image sensor, clamp the SUB pin output at VH before input to the CCD image sensor.
9
CXD3410GA
Switching Waveforms
V1A (V1B, V3A, V3B)
V2 (V4)
SUB
TTMH
TTHM
VH
VM
VL
VM
VL
VH
VL
90%
10%
90%
10%
TTLM
TTLM
90%
10%
90%
10%
TTLH
TTHL
90%
90%
10%
10%
TTML
90%
10%
TTML
90%
10%
Waveform Noise
VCMH
VCML
VM
VL
VCLH
VCLL
10
CXD3410GA
Measurement Circuit
N1
N2
L4
L5
L6
N7
L7
N8
N9
M1
M2
M3
N4
N5
N6
M4
N3
L2
K2
K9
K8
K7
K1
L1
K3
J9
J8
J7
J3
J2
J1
H9
H8
H7
H3
H2
L3
G9
G8
G7
A2
A1
A3
A4
A5
A6
A7
A8
A9
B1
B2
B3
B4
B5
B6
B7
B9
B8
C1
C2
C3
C4
C5
C6
M5
M6
E1
L8
L9
M7
M8
M9
E8
D8
D7
D3
D2
D1
C9
C8
C7
F3
F2
G1
E9
D9
E7
G3
G2
H1
F9
F8
F7
F1
E3
E2
VD
CXD3410GA
V2
VH
VL
D9
EBCKSM
V
DD1
SCK1
VD
TEST1
V4
V1B
V3B
TEST2
RST
WEN
SEN1
HD
VM
V1A
V3A
SUB
V
SS1
DSGA
T
ID
CLPDMI
CLPOBI
ADCLK
XSHPI
XSHDI
PBLKI
DV
DD2
DV
SS3
ADCLKI
AV
DD1
AV
SS1
AV
SS2
DV
SS2
DV
SS1
DV
DD1
AV
DD2
C2
C1
D6
D7
D8
CCDIN
C4
C3
V
SS6
SSI1
MCKO
V
SS2
RG
V
DD2
OSCO
OSCI
V
DD5
H2
H1
V
SS3
V
SS5
CKO
CKI
V
DD3
V
DD4
XRS
CLPDM
CLPOB
V
SS4
XSHP
XSHD
PBLK
NC
NC
SCK2
SSI2
TEST3
AV
SS4
C8
AV
SS6
AV
DD5
D2
D1
D0
SEN2
TEST5
AV
DD4
C7
AV
SS3
AV
DD3
D5
D4
D3
TEST4
AV
SS5
C9
Serial interface data
HD
+3.3V
+15.0V
7.5V
C2
C2
C2
C2
C2
R1
R1
R1
R2
R1
R1
R1
C2
C2
C2
C2
C2
C2
C2
C2
C2
C1
C1
C1
C1
C1
C1
C2
C3
CKI
C6
C4
C5
C5
C6
C6
C1 3300pF
C2 560pF
C3 820pF
C4 30pF
C5 180pF
C6 10pF
R1 30
R2 10
11
CXD3410GA
AC Characteristics
AC characteristics between the serial interface clocks
SSI1
0.2V
DD
d
0.2V
DD
d
0.8V
DD
d
ts2
th1
ts1
ts3
0.8V
DD
d
0.8V
DD
d
SCK1
SEN1
SEN1
Symbol
t
s1
t
h1
t
s2
t
s3
Definition
SSI1 setup time, activated by the rising edge of SCK1
SSI1 hold time, activated by the rising edge of SCK1
SCK1 setup time, activated by the rising edge of SEN1
SEN1 setup time, activated by the rising edge of SCK1
Min.
Typ.
Max.
20
20
20
20
Unit
ns
ns
ns
ns
Serial interface clock internal loading characteristics (1)
(Within the recommended operating conditions)
th1
Enlarged view
Example: During frame mode
0.2V
DD
d
ts1
0.2V
DD
d
V1A
VD
HD
HD
V1A
SEN1
0.8V
DD
d
Symbol
t
s1
t
h1
Definition
SEN1 setup time, activated by the falling edge of HD
SEN1 hold time, activated by the falling edge of HD
Min.
Typ.
Max.
0
102
Unit
ns
s
Be sure to maintain a constantly high SEN1 logic level near the falling edge of the HD in the horizontal period
during which V1A/B and V3A/B values take the ternary value and during that horizontal period.
(Within the recommended operating conditions)
12
CXD3410GA
Serial interface clock output variation characteristics
Normally, the serial interface data is loaded to the CXD3410GA at the timing shown in "Serial interface clock
internal loading characteristics (1)" above. However, one exception to this is when the data such as STB is
loaded to the CXD3410GA and controlled at the rising edge of SEN1. See "Description of Operation".
0.8V
DD
d
SEN1
Output signal
tpdPULSE
Symbol
tpdPULSE
Definition
Output signal delay, activated by the rising edge of SEN1
Min.
Typ.
Max.
100
5
Unit
ns
(Within the recommended operating conditions)
Serial interface clock internal loading characteristics (2)
th1
Enlarged view
0.2V
DD
d
ts1
0.2V
DD
d
VD
HD
VD
HD
SEN1
0.8V
DD
d
Example: During frame mode
Symbol
t
s1
t
h1
Definition
SEN1 setup time, activated by the falling edge of VD
SEN1 hold time, activated by the falling edge of VD
Min.
Typ.
Max.
0
200
Unit
ns
ns
Be sure to maintain a constantly high SEN1 logic level near the falling edge of VD.
(Within the recommended operating conditions)
13
CXD3410GA
RST
0.2V
DD
d
tw1
0.8V
DD
d
VD, HD
MCKO
ts1
th1
0.2V
DD
d
0.8V
DD
d
0.2V
DD
d
RST loading characteristics
Symbol
t
w1
Definition
RST pulse width
Min.
Typ.
Max.
35
Unit
ns
(Within the recommended operating conditions)
VD and HD loading characteristics
Symbol
t
s1
t
h1
Definition
VD and HD setup time, activated by the rising edge of MCKO
VD and HD hold time, activated by the rising edge of MCKO
Min.
Typ.
Max.
20
5
Unit
ns
ns
MCKO load capacitance = 10pF
(Within the recommended operating conditions)
DSGAT
H1, H2, RG, XSHP, XSHD, XRS,
ADCLK, PBLK, CLPDM, CLPOB
TpDSGAT
0.2V
DD
d
0.2V
DD
d
DSGAT output timing characteristics
Symbol
TpDSGAT
Definition
Time until the above outputs low after the fall of DSGAT.
Min.
Typ.
Max.
100
Unit
ns
H1, H2 load capacitance = 180pF
RG load capacitance = 30pF
XSHP, XSHD, XRS, PBLK, CLPOB, CLPDM, ADCLK = 10pF (Within the recommended operating conditions)
14
CXD3410GA
0.8V
DD
d
MCKO
WEN, ID
tpd1
WEN and ID load capacitance = 10pF
(Within the recommended operating conditions)
Symbol
tpd1
Definition
Time until the above outputs change after the rise of MCKO
Min.
Typ.
Max.
60
20
Unit
ns
Output variation characteristics
15
CXD3410GA
CCD Signal Processor Block Electrical Characteristics
DC Characteristics
(Fc = 18MSPS, DV
DD1
,
2
= AV
DD1
,
2
,
3
,
4
,
5
= 3.3V, Ta = 25C)
Item
Supply voltage 1
Supply voltage 2
Supply voltage 3
Analog input
capacitance
Input voltage
A/D clock duty
Output voltage
Pins
DV
DD1
DV
DD2
AV
DD1
,
AV
DD2
,
AV
DD3
,
AV
DD4
,
AV
DD5
CCDIN
SCK2, SSI2,
SEN2, TEST3,
TEST4, XSHDI,
XSHPI, ADCLKI,
CLPOBI,
CLPDMI, PBLKI
ADCLKI
D0 to D9
Symbol
V
DD
e
V
DD
f
V
DD
g
C
IN
V
I +
V
I
V
OH
V
OL
Conditions
Feed current where I
OH
= 2.0mA
Pull-in current where I
OL
= 2.0mA
Min.
3.0
3.0
3.0
V
DD
e 0.9
Typ.
3.3
3.3
3.3
15
1.8
1.1
50
Max.
3.6
3.6
3.6
0.4
Unit
V
V
V
pF
V
V
%
V
V
Analog Characteristics
(Fc = 18MSPS, DV
DD1
,
2
= AV
DD1
,
2
,
3
,
4
,
5
= 3.3V, Ta = 25C)
Item
CCDIN input voltage amplitude
PGA maximum gain
PGA minimum gain
ADC resolution
ADC maximum conversion rate
ADC integral non-linearity error
ADC differential non-linearity error
Signal-to-noise ratio
CCDIN input voltage clamp level
CCD optical black signal clamp
level
Symbol
V
IN
Gmax
Gmin
Fc max
E
L
E
D
SNR
1
CLP
OB
Conditions
PGA gain = 0dB, output full scale
PGA gain setting data = "3FFh"
PGA gain setting data = "000h"
PGA gain = 0dB
PGA gain = 0dB
CCDIN input connected to GND
via a coupling capacitor
PGA gain = 0dB
OBLVL = "8h"
PGA gain = 0dB
Min.
900
18
Typ.
42
6
10
1.0
0.5
62
1.5
32
Max.
1100
5.0
1.0
Unit
mV
dB
dB
bit
MHz
LSB
LSB
dB
V
LSB
1
SNR = 20 log (full-scale voltage/rms noise)
16
CXD3410GA
AC Characteristics
AC characteristics between the serial interface clocks
SSI2
0.2V
DD
0.2V
DD
0.8V
DD
ts2
th1
ts1
ts3
0.8V
DD
0.8V
DD
SCK2
SEN2
SEN2
Symbol
t
p1
t
s1
t
h1
t
s2
t
s3
Definition
SCK2 clock period
SSI2 setup time, activated by the rise of SCK2
SSI2 hold time, activated by the rise of SCK2
SCK2 setup time, activated by the rise of SEN2
SEN2 setup time, activated by the rise of SCK2
Min.
Typ.
Max.
100
30
30
30
30
Unit
ns
ns
ns
ns
ns
(Fc = 18MSPS, DV
DD1
,
2
= AV
DD1
,
2
,
3
,
4
,
5
= 3.3V, Ta = 25C)
The setting values are reflected to the operation 5 or 6 ADCLKI clocks after the serial data is loaded at the
rise of SEN2.
17
CXD3410GA
CDS/ADC Timing Chart
N
N + 1
N 10
CCDIN
XSHPI
XSHDI
ADCLKI
D0 to D9
N 9
N 8
N 7
tw1
DL
N + 2
N + 3
Symbol
t
w1
DL
Definition
ADCLKI clock period
ADCLKI clock duty
Data latency
Min.
Typ.
Max.
50
9
54
Unit
ns
%
clocks
(Fc = 18MSPS, DV
DD1
,
2
= AV
DD1
,
2
,
3
,
4
,
5
= 3.3V, Ta = 25C)
Set the input pulse polarity setting data D13, D14 and D15 of the serial interface data to "0".
Preblanking Timing Chart
11 Clocks
11 Clocks
PBLKI
ADCLKI
D0 to D9
All "0"
18
CXD3410GA
Description of Operation
Pulses output from the CXD3410GA's timing generator block are controlled mainly by the RST , DSGAT pin
and by the serial interface data. The Pin Status Table is shown below, and the details of serial interface control
are described on page 20 and thereafter.
Pin Status Table
Pin
No.
A1
A2
A3
A4
A5
A6
A7
A8
A9
B1
B2
B3
B4
B5
B6
B7
B8
B9
C1
C2
C3
C4
C5
C6
C7
C8
C9
D1
D2
NC
NC
SCK2
SSI2
TEST3
AV
SS4
C8
AV
SS6
AV
DD5
D2
D1
D0
SEN2
TEST5
AV
DD4
C7
AV
DD3
AV
SS3
D5
D4
D3
TEST4
AV
SS5
C9
C3
C4
CCDIN
D8
D7
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
D3
D7
D8
D9
E1
E2
E3
E7
E8
E9
F1
F2
F3
F7
F8
F9
G1
G2
G3
G7
G8
G9
H1
H2
H3
H7
H8
H9
J1
D6
C1
C2
AV
SS1
D9
DV
DD1
DV
SS1
AV
SS2
AV
DD2
AV
DD1
DV
SS2
DV
SS3
DV
DD2
PBLKI
XSHDI
XSHPI
ADCLKI
CLPOBI
CLPDMI
PBLK
XSHD
XSHP
ADCLK
CLPOB
CLPDM
XRS
V
DD4
V
DD3
CKI
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
ACT
L
L
L
H
ACT
L
L
L
ACT
ACT
L
L
L
ACT
ACT
L
L
L
ACT
ACT
L
L
L
H
ACT
L
L
L
H
ACT
L
L
L
ACT
--
--
ACT
ACT
ACT
ACT
ACT
Symbol
CAM
SLP
DS
GAT
RST
Pin
No.
Symbol
STB
CAM
SLP
DS
GAT
RST
STB
19
CXD3410GA
Note) ACT means that the circuit is operating, and DIS means that loading is stopped.
L indicates a low output level, and H a high output level in the controlled status.
Also, VH, VM and VL indicate the voltage levels applied to VH (Pin M5), VM (Pin L4) and VL (Pin M6),
respectively, in the controlled status.
Pin
No.
J2
J3
J7
J8
J9
K1
K2
K3
K7
K8
K9
L1
L2
L3
L4
L5
L6
L7
L8
CKO
V
SS5
V
SS3
H1
H2
OSCO
MCKO
V
DD5
V
DD2
RG
V
SS2
OSCI
SSI1
V
SS4
VM
V1A
V3A
V
SS1
EBCKSM
ACT
ACT
L
ACT
ACT
--
--
ACT
L
L
L
ACT
ACT
L
L
L
ACT
ACT
ACT
ACT
ACT
ACT
ACT
ACT
L
ACT
ACT
--
--
ACT
L
L
L
ACT
--
ACT
ACT
ACT
ACT
ACT
ACT
ACT
ACT
ACT
DIS
--
--
ACT
VH
VH
VH
VM
ACT
VH
VH
VH
VL
--
ACT
ACT
ACT
ACT
ACT
L9
M1
M2
M3
M4
M5
M6
M7
M8
M9
N1
N2
N3
N4
N5
N6
N7
N8
N9
V
DD1
SCK1
VD
TEST1
V2
VH
VL
TEST2
RST
WEN
SEN1
HD
V
SS6
V4
V1B
V3B
SUB
DSGAT
ID
--
ACT
ACT
ACT
ACT
DIS
ACT
ACT
ACT
ACT
ACT
--
ACT
VM
VM
VM
VM
--
--
--
ACT
ACT
ACT
ACT
L
ACT
L
L
ACT
L
ACT
ACT
ACT
ACT
DIS
ACT
ACT
ACT
ACT
ACT
--
ACT
VM
VM
VM
VL
ACT
VH
VH
VH
VM
ACT
VH
VH
VH
VL
ACT
VH
VH
VH
VL
ACT
ACT
ACT
L
ACT
ACT
L
L
ACT
L
Symbol
Pin
No.
Symbol
CAM
SLP
DS
GAT
RST
STB
CAM
SLP
DS
GAT
RST
STB
20
CXD3410GA
Timing Generator Block Serial Interface Control
The CXD3410GA's timing generator block basically loads and reflects the timing generator block serial
interface data sent in the following format in the readout portion at the falling edge of HD. Here, readout portion
specifies the horizontal period during which V1A/B and V3A/B, etc. take the ternary value.
Note that some items reflect the timing generator block serial interface data at the falling edge of VD or the
rising edge of SEN1.
00
01
02
03
04
05
06
07
41
42
43
44
45
46
47
SSI1
SCK1
SEN1
There are two categories of timing generator block serial interface data: CXD3410GA timing generator block
drive control data (hereafter "control data") and electronic shutter data (hereafter "shutter data").
The details of each data are described below.
21
CXD3410GA
Control Data
Data
D00
to
D07
D08
to
D09
D10
to
D11
D12
D13
to
D14
D15
to
D35
D36
to
D37
D38
to
D39
D40
to
D47
Symbol
CHIP
CTG
MODE
CCD
SMD
--
LDAD
STB
CKSM
Function
Chip enable
Category switching
Drive mode switching
CCD switching
Electronic shutter mode switching
--
ADCLK logic phase switching
Standby control
Checksum
Data = 0
Data = 1
10000001
Enabled
Other values
Disabled
See D08 to D09 CTG.
See D10 to D11 MODE.
ICX224/284
ICX202/232
See D13 to D14 SMD.
--
--
See D36 to D37 LDAD.
See D38 to D39 STB.
See D40 to D47 CKSM.
RST
All
0
All
0
All
0
0
All
0
All
0
All
0
All
0
1
0
22
CXD3410GA
Shutter Data
Data
D00
to
D07
D08
to
D09
D10
to
D17
D18
to
D27
D28
to
D35
D36
to
D39
D40
to
D47
Symbol
CHIP
CTG
SVD
SHD
SPL
--
CKSM
Function
Chip enable
Category switching
Electronic shutter vertical period
specification
Electronic shutter horizontal period
specification
High-speed shutter position
specification
--
Checksum
Data = 0
Data = 1
10000001
Enabled
Other values
Disabled
See D08 to D09 CTG.
See D10 to D17 SVD.
See D18 to D27 SHD.
See D28 to D35 SPL.
--
--
See D40 to D47 CKSM.
RST
All
0
All
0
All
0
All
0
All
0
All
0
All
0
23
CXD3410GA
Shared data: D40 to D47 CKSM [Checksum]
Checksum bit. Provide the data indicated as follows.
This function is enabled when EBCKSM is "L".
Detailed Description of Each Data
Shared data: D08 to D09 CTG [Category]
Of the data provided to the CXD3410GA by the timing generator block serial interface, the CXD3410GA loads
D10 and subsequent data to each data register as shown in the table below according to the combination of
D08 and D09 .
D09
0
0
1
D08
0
1
X
Description of operation
Loading to control data register
Loading to shutter data register
Test mode
D11
0
0
1
1
D10
0
1
0
1
Description of operation
Draft mode (quadruple speed: default)
Frame mode (A field readout)
Frame mode (B Field readout)
Frame mode
Note that the CXD3410GA can apply these categories consecutively within the same vertical period. However,
care should be taken as the data is overwritten if the same category is applied.
Control data: D10 to D11 MODE [Drive mode]
The CXD3410GA timing generator block drive mode can be switched as follows. However, the drive mode bits
are loaded to the CXD3410GA and reflected at the falling edge of VD.
MSB
LSB
D07
D15
D23
D31
D39
D47
0
D06
D14
D22
D30
D38
D46
0
D05
D13
D21
D29
D37
D45
0
D04
D12
D20
D28
D36
D44
0
D03
D11
D19
D27
D35
D43
0
D02
D10
D18
D26
D34
D42
0
D01
D09
D17
D25
D33
D41
0
D00
D08
D16
D24
D32
D40
0
+)
CKSM
Reflected if Sum is "0".
24
CXD3410GA
Control data: D36 to D37 LDAD [ADCLK logic phase]
This indicates the ADCLK logic phase adjustment data. The default is 90 relative to MCKO.
Control data: D38 to D39 STB [Standby]
The operating mode of the timing generator block is switched as follows. However, the standby bits are loaded
to the CXD3410GA and control is applied immediately at the rising edge of SEN1.
D37
0
0
1
1
D36
0
1
0
1
Degree of adjustment ()
0
90
180
270
D39
X
0
1
D38
0
1
1
Symbol
CAM
SLP
STB
Operating mode
Normal operating mode
Sleep mode
Standby mode
See the Pin Status Table for the pin status in each mode.
Control data: D12 CCD [CCD switching]
Specify CCD image sensor to use. However, the CCD switching bits are loaded to the CXD3410GA and reflected
at the falling edge of VD.
The default is "ICX224/ICX284".
D12
0
1
CCD
ICX224/ICX284
ICX202/ICX232
25
CXD3410GA
Control data/shutter data: [Electronic shutter]
The CXD3410GA realizes various electronic shutter functions by using control data D13 to D14 SMD and
shutter data D10 to D17 SVD, D18 to D27 SHD and D28 to D35 SPL.
These functions are described in detail below.
First, the various modes are shown below.
These modes are switched using control data D13 to D14 SMD.
D14
0
0
1
1
D13
0
1
0
1
Description of operation
Electronic shutter stopped mode
High-speed/low-speed shutter mode
HTSG control mode
The electronic shutter data is expressed as shown in the table below using D18 to D27 SHD as an example.
MSB
LSB
D27
D26
D25
D24
D23
D22
D21
D20
D19
D18
1
1
0
0
C
0
1
1
0
0
1
1
3
SHD is expressed as 1C3h .
[Electronic shutter stopped mode]
During this mode, all shutter data items are invalid.
SUB is not output in this mode, so the shutter speed is the accumulation time for one field.
[High-speed/low-speed shutter mode]
During this mode, the shutter data items have the following meanings.
The period during which SVD and SHD are specified together is the shutter speed. Concretely, when
specifying high-speed shutter, SVD is set to "00h". (See the figure.) During low-speed shutter, or in other
words when SVD is set to "01h" or higher, the serial interface data is not loaded until this period is finished.
The vertical period indicated here corresponds to one field in each drive mode. In addition, the number of
horizontal periods applied to SHD can be considered as (number of SUB pulses 1).
Note) The bit data definition area is assured in terms of the CXD3410GA functions, and does not assure the
CCD characteristics.
Symbol
SVD
SHD
SPL
Data
D10 to D17
D18 to D27
D28 to D35
Description
Number of vertical periods specification (00h
SVD
FFh)
Number of horizontal periods specification (000h
SHD
3FFh)
Vertical period specification for high-speed shutter operation (000h
SPL
FFh)
26
CXD3410GA
VD
SHD
01
V1A
SUB
WEN
SMD
00h
02h
SVD
050h
10Fh
SHD
01
SVD
VD
SPL
SHD
01
V1A
SUB
WEN
SMD
00h
01h
SPL
00h
02h
SVD
0A3h
10Fh
SHD
10
SVD
Further, SPL can be used during this mode to specify the SUB output at the desired vertical period during the
low-speed shutter period.
In the case below, SUB is output based on SHD at the SPL vertical period out of (SVD + 1) vertical periods.
Incidentally, SPL is counted as "00h", "01h", "02h" and so on in conformance with SVD.
Using this function, it is possible to achieve smooth exposure time transitions when changing from low-speed
shutter to high-speed shutter or vice-versa.
27
CXD3410GA
VD
V1A
SUB
WEN
01
11
Exposure time
01
SMD
Vck
[HTSG control mode]
During this mode, all shutter data items are invalid.
The V1A/B and V3A/B ternary level outputs are stopped, so the shutter speed is the value obtained by adding
the shutter speed specified in the preceding vertical period to the vertical period during which these readout
pulses are stopped as shown in the figure.
28
CXD3410GA
Chart-1
Vertical Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX224/ICX284
A
Field
VD
HD
SUB
V1A
V1B
V2
V3A
V3B
V4
CCD OUT
1225
1227
1228
1230
1232
1234
1236
1229
1231
1233
1235
3
1
57
2468
1
0
4
2
6
8
10
12
14
16
18
9
12
5
C
C
31
1
2
4
B Field
31
13579
1
1
1
3
1
5
1
7
1
9
2
1
PBLK
ID
OBCLP
CLPDM
WEN
650
(1300)
650
(651)
A
B
The number of SUB pulses is determined by the serial interface. This chart shows the case where SUB pulses are output in each h
orizontal period.
ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component.
29
CXD3410GA
Chart-2
Vertical Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX224/ICX284
VD
HD
SUB
V1A
V1B
V2
V3A
V3B
V4
CCD OUT
1210
1215
1215
1218
1223
1226
1231
1234
1218
1223
1226
1231
1234
9
42
71
0
15
23
18
26
31
34
39
42
47
50
55
1
12
D
D
16
11
2
1
6
9
4
2
7
10
15
18
23
26
31
34
39
42
47
50
55
58
PBLK
ID
OBCLP
CLPDM
WEN
325
325
The number of SUB pulses is determined by the serial interface. This chart shows the case where SUB pulses are output in each h
orizontal period.
ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component.
30
CXD3410GA
Chart-3
Horizontal Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX224/ICX284
152
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1848)
05
0
56
100
1
50
120
72
104
56
51
13
104
190
88
56
152
88
200
2
50
ID
104
WEN
214
188
214
168
136
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.1 to 10.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
ID and WEN are output at the timing shown above at the position shown in Chart-1.
31
CXD3410GA
Chart-4
Horizontal Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX224/ICX284
152
168
136
104
72
168
136
104
72
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1848)
05
0
56
100
150
120
120
152
88
56
56
51
13
104
190
88
56
152
88
200
250
ID
104
WEN
214
188
214
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.1 to 10.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
ID and WEN are output at the timing shown above at the position shown in Chart-2.
32
CXD3410GA
Chart-5
Horizontal Direction Timing Chart
(High-speed sweep: C)
MODE
Frame mode
Applicable CCD image sensor
ICX224/ICX284
188
168
196
224
252
280
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1848)
05
0
56
100
150
11
2
1
4
0
84
56
182
210
238
266
154
98
70
51
13
56
152
88
200
250
ID
WEN
126
168
196
224
252
280
140
84
56
182
210
238
2
66
#1
#2
#3
#4
154
70
126
11
2
98
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.1 to 10.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
High-speed sweep of V1A/B, V2, V3A/B and V4 is performed up to 22H of 1848ck (#758).
33
CXD3410GA
Chart-6
Horizontal Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX224/ICX284
HD
[A
Field]
[B Field]
[A]
[B]
V3B
V4
V3B
V4
Logic alignment portion
V1A
V1B
V2
V3A
V1A
V1B
V2
V3A
(1848)
0
56
72
120
88
136
104
152
184
200
168
216
(1848)
0
56
72
120
88
136
104
152
168
1071
1091
1175
1029
1027
1133
1131
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
34
CXD3410GA
Chart-7
Horizontal Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX224/ICX284
HD
[D]
V3B
V4
V1A
V1B
V2
V3A
(1848)
0
56
72
120
88
136
104
152
168
(1848)
0
56
72
120
88
136
104
152
168
1071
1091
1111
1175
1029
1027
1133
1131
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.1 to 10.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
35
CXD3410GA
Chart-8
Vertical Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX202/ICX232
A
Field
VD
HD
SUB
V1A
V1B
V2
V3A
V3B
V4
CCD OUT
955
957
958
960
962
964
966
959
961
963
965
13
24246
10
8
12
14
16
18
20
1
1
37
EG
F
G
40
13
6
B Field
40
3579
1
1
1
3
1
5
1
7
1
9
2
1
2
3
PBLK
ID
OBCLP
CLPDM
WEN
525
(1050)
525
(526)
The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in e
ach horizontal period.
ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component.
36
CXD3410GA
Chart-9
Vertical Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX202/ICX232
VD
HD
SUB
V1A
V1B
V2
V3A
V3B
V4
CCD OUT
944
949
949
952
957
960
965
952
957
960
965
4
15
81
3
16
24
21
29
32
37
40
1
17
H
H
20
11
7
2
0
1
4
5
8
1
31
62
12
42
93
23
74
04
5
PBLK
ID
OBCLP
CLPDM
WEN
262
262
The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in e
ach horizontal period.
ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component.
37
CXD3410GA
Chart-10
Horizontal Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX202/ICX232
175
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1560)
05
0
55
100
150
135
75
11
5
55
50
10
11
5
244
95
55
155
95
200
250
ID
11
5
WEN
270
242
270
195
155
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
ID and WEN are output at the timing shown above at the position shown in Chart-8.
38
CXD3410GA
Chart-11
Horizontal Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX202/ICX232
175
195
155
11
5
75
195
155
11
5
75
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1560)
05
0
55
100
150
135
135
175
95
55
55
50
10
11
5
244
95
55
155
95
200
250
ID
11
5
WEN
270
242
270
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
ID and WEN are output at the timing shown above at the position shown in Chart-9.
39
CXD3410GA
Chart-12
Horizontal Direction Timing Chart
(High-speed sweep: C)
MODE
Frame mode
Applicable CCD image sensor
ICX202/ICX232
242
175
215
255
HD
MCKO
H1
H2
V1A/B
V2
V3A/B
V4
SUB
PBLK
OBCLP
CLPDM
(1560)
05
0
55
100
1
50
135
95
55
75
1
1
5
1
55
195
2
35
275
75
1
1
5
1
55
195
2
35
275
175
215
255
135
95
55
50
10
55
155
95
200
2
50
ID
WEN
#1
#2
#3
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
SUB is output at the timing shown above when output is controlled by the serial interface data.
High-speed sweep of V1A/B, V2, V3A/B and V4 is performed up to 33H of 1295ck (#659).
40
CXD3410GA
Chart-13
Horizontal Direction Timing Chart
MODE
Frame mode
Applicable CCD image sensor
ICX202/ICX232
HD
[A
Field]
[B Field]
[E]
[F]
V3B
V4
V3B
V4
V1A
V1B
V2
V3A
V1A
V1B
V2
V3A
(1560)
0
55
75
135
95
155
1
1
5
175
195
(1560)
0
55
75
135
95
155
1
1
5
175
195
843
9
03
923
983
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
41
CXD3410GA
Chart-14
Horizontal Direction Timing Chart
MODE
Draft mode (Quadruple-speed)
Applicable CCD image sensor
ICX202/ICX232
HD
[H]
V3B
V4
V1A
V1B
V2
V3A
(1560)
0
55
75
135
95
155
1
1
5
175
195
(1560)
0
55
75
135
95
155
1
1
5
175
195
843
903
923
9
83
The HD of this chart indicates the actual CXD3410GA load timing.
The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HD.
The HD fall period should be between approximately 3.0 to 13.4
s
(when the drive frequency is 18MHz). This chart shows a period
of 115ck (6.4
s).
42
CXD3410GA
Chart-15
High-Speed Phase Timing Chart
MODE
Applicable CCD image sensor
ICX224/ICX284/ICX202/ICX232
HD
HD'
CKI
CKO
ADCLK
MCKO
H1
H2
RG
XSHP
XSHD
XRS
55/56
188/242
1
HD' indicates the HD which is the actual CXD3410GA load timing.
The phase relationship of each pulse shows the logical position relationship. For the actual output waveform, a delay is added
to each pulse.
The logical phase of ADCLK can be specified by the serial interface.
43
CXD3410GA
CCD Signal Processor Block Serial Interface Control
The CXD3410GA's CCD signal processor block basically loads the CCD signal processor block serial interface
data sent in the following format at the rising edge of SEN2, and the setting values are then reflected to the
operation 6 ADCLKI clocks after that.
CCD signal processor block serial interface control requires clock input to ADCLKI in order to load and reflect
the serial interface data to operation, so this should normally be performed when the timing generator block is
in the normal operation mode.
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
SSI2
SCK2
SEN2
There are four categories of CCD signal processor block serial interface data: standby control data, PGA gain
setting data, OB clamp level setting data, and input pulse polarity setting data.
Note that when data from multiple categories is loaded consecutively, the data for the category loaded last is
valid and data from other categories is lost. When transferring data from multiple categories, raise SEN2 for
each category and wait until the setting value 6 ADCKLI clocks after that has been reflected to operation, then
transmit the next category.
The detail of each data are described below.
Standby Control Data
Data
D00
D01
to
D03
D04
to
D14
D15
Symbol
TEST
CTG
FIXED
STB
Function
Test code
Category switching
--
Standby control
Data = 0
Data = 1
Set to 0.
D01 to D03 CTG
Set to All 0.
Normal operating mode
Standby mode
Data
D00
D01
to
D03
D04
to
D05
D06
to
D15
Symbol
TEST
CTG
FIXED
GAIN
Function
Test code
Category switching
--
PGA gain setting data
Data = 0
Data = 1
Set to 0.
D01 to D03 CTG
Set to All 0.
See D06 to D15 GAIN.
PGA Gain Setting Data
44
CXD3410GA
Data
D00
D01
to
D03
D04
to
D11
D12
to
D15
Symbol
TEST
CTG
FIXED
OBLVL
Function
Test code
Category switching
--
OB clamp level setting data
Data = 0
Data = 1
Set to 0.
D01 to D03 CTG
Set to All 0.
See D12 to D15 OBLVL.
OB Clamp Level Setting Data
Data
D00
D01
to
D03
D04
to
D12
D13
to
D15
Symbol
TEST
CTG
FIXED
POL
Function
Test code
Category switching
--
Input pulse polarity setting data
Data = 0
Data = 1
Set to 0.
D01 to D03 CTG
Set to All 0.
Set to All 0.
Input Pulse Polarity Setting Data
45
CXD3410GA
Detailed Description of Each Data
Shared data: D01 to D03 CTG [Category]
Of the data provided to the CXD3410GA by the CCD signal processor block serial interface, the CXD3410GA
loads D04 and subsequent data to each data register as shown in the table below according to the combination
of D01 to D03 .
PGA gain setting data: D06 to D15 GAIN [PGA gain]
The CXD3410GA can set the programmable gain amplifier (PGA) gain from 6dB to +42dB in 1024 steps by
using PGA gain setting data D06 to D15 GAIN.
The PGA gain setting data is expressed as shown in the table below using D06 to D15 GAIN.
D01
0
0
0
0
1
D02
0
0
1
1
X
D03
0
1
0
1
X
Description of operation
Loading to standby control data register
Loading to PGA gain setting data register
Loading to OB clamp level setting data register
Loading to input pulse polarity setting data register
Access prohibited
Standby control data: D15 STB [Standby]
The operating mode of the CCD signal processor block is switched as follows. When the CCD signal processor
block is in standby mode, only the serial interface is valid.
D15
0
1
Description of operation
Normal operating mode
Standby mode
MSB
LSB
D06
D07
D08
D09
D10
D11
D12
D13
D14
D15
1
1
0
0
C
0
1
1
0
0
1
1
3
GAIN is expressed as 1C3h .
For example, when GAIN is set to "000h", "080h", "220h", "348h" and "3FFh", the respective PGA gain setting
values are 6dB, 0dB, +20dB, +34dB and +42dB.
46
CXD3410GA
OB clamp level setting data: D12 to D15 OBLVL [OB clamp level]
The CXD3410GA can set the OPB clamp output value from 0 to 60LSB in 4LSB steps by using CCD signal
processor block control data D12 to D15 OBLVL.
The OPB clamp output setting data is expressed as shown in the table below using D12 to D15 OBLVL.
MSB
LSB
D12
D13
D14
D15
0
1
1
0
6
OBLVL is expressed as 6h .
For example, when OBLVL is set to "0h", "1h", "8h" and "Fh", the respective OPB clamp output setting values
are 0LSB, 4LSB, 32LSB and 60LSB.
47
CXD3410GA
Application Circuit Block Diagram
SEN2
SCK2
SSI2
F9
F8
F7
G2
G3
G9
G8
G7
H2
H1
G1
B7
A7
C6
B3
A1
A2
B2
B1
C3
C2
C1
D3
D2
D1
E1
J2
K2
M2
N2
N9
M9
M8
N8
L8
M4
N5
L5
K8
J9
J8
C8
C7
D8
D7
C9
N4
L5
N7
N6
A3
B4
A4
M1
N1
L2
B5
C4
L1
J1
K1
A5
M7
M3
H3
CCD
ICX202/232
ICX224/284
TG/CDS/PGA/ADC
CXD3410GA
Controller
SSI1
SEN1
SCK1
TEST5
TEST4
TEST3
TEST2
TEST1
OSCO
CKI
OSCI
D1
VD
HD
D0 (LSB)
Signal
Processor
Bloc
k
D2
NC
NC
D3
D4
D5
D6
D7
D8
D9 (MSB)
MCK
O
CK
O
EBCKSM
DSGA
T
RST
WEN
ID
0.1F
C7
XSHPI
XSHDI
PBLKI
CLPDMI
CLPOBI
XSHP
XSHD
PBLK
CLPDM
CLPOB
ADCLK
ADCLKI
0.1F
C8
0.1F
C9
1F
C1
1F
CCDIN
CCDOUT
390pF
C2
390pF
C3
240pF
C4
H1
H2
RG
V1A
V1B
V2
V3A
V3B
V4
SUB
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility fo
r
any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same
.
This block diagram illustrates connections with each circuit
block, and is not an actual circuit diagram. See the CCD
image sensor data sheet for an example of specific circuit
connections with the CCD image sensor.
48
CXD3410GA
Notes on Operation
1. Be sure to start up the timing generator block VL and VH pin power supplies at the timing shown in the
figure below in order to prevent the SUB pin of the CCD image sensor from going to negative potential. In
addition, start up the timing generator block V
DD1
, V
DD2
, V
DD3
, V
DD4
and V
DD5
pin and CCD signal processor
block DV
DD1
, DV
DD2
, AV
DD1
, AV
DD2
, AV
DD3
, AV
DD4
and AV
DD5
pin power supplies at the same time either
before or at the same time as the VH pin power supply is started up.
2. Reset the timing generator block and CCD signal processor block during power-on. The timing generator
block is reset by inputting the reset signal to the RST pin. The CCD signal processor block is reset by
initializing the serial data.
3. Separate the timing generator block V
DD1
, V
DD2
, V
DD3
, V
DD4
and V
DD5
pins from the CCD signal processor
block DV
DD1
, DV
DD2
, AV
DD1
, AV
DD2
, AV
DD3
, AV
DD4
and AV
DD5
pins.
Also, the ADC output driver stage is connected to the dedicated power supply pin DV
DD1
. Separating this
pin from other power supplies is recommended to avoid affecting the internal analog circuits.
4. The difference in potential between the timing generator block V
DD4
pin supply voltage 3 V
DD
c and the CCD
signal processor block DV
DD1
, DV
DD2
, AV
DD1
, AV
DD2
, AV
DD3
, AV
DD4
and AV
DD5
pin supply voltages 1 V
DD
e,
2 V
DD
f and 3 V
DD
g should be 0.1V or less.
5. The timing generator block and CCD signal processor block ground pins should use a shared ground which
is connected outside the IC. When the set ground is divided into digital and analog blocks, connect the
timing generator block ground pins to the digital ground and the CCD signal processor block ground pins to
the analog ground. The difference in potential between the timing generator block V
SS1
, V
SS2
, V
SS3
, V
SS4
,
V
SS5
, V
SS6
and VM and the CCD signal processor block DV
SS1
, DV
SS2
, DV
SS3
, AV
SS1
, AV
SS2
, AV
SS3
, AV
SS4
,
AV
SS5
and AV
SS6
should be 0.1V or less.
6. Do not perform serial communication with the CCD signal processor block during the effective image
period, as this may cause the picture quality to deteriorate. In addition, using SCK2, SSI2 and SEN2, which
are used by the CCD signal processor block, use of the dedicated ports is recommended. When using
these pins as shared ports with the timing generator block or other ICs, be sure to thoroughly confirm the
effects on picture quality before use.
t1
t2
15.0V
0V
7.5V
20%
20%
t2
t1
49
CXD3410GA
Package Outline
Unit: mm
96PIN LFLGA
PACKAGE MASS
PACKAGE STRUCTURE
ORGANIC SUBSTRATE
0.3 g
PACKAGE MATERIAL
TERMINAL TREATMENT
TERMINAL MATERIAL
GOLD PLATING
NICKEL PLATING
SONY CODE
EIAJ CODE
JEDEC CODE
LFLGA-96P-02
P-LFLGA96-12X8-0.8
1.3 MAX
S
0.10
DETAIL X
S
S
0.2
PIN 1 INDEX
X
B
B
0.2
12.0
S
8.0
A
0.2
S
0.15
x4
0.8
B
D
E
F
G
H
J
K
L
C
A
M
N
1 2 3 4 5 6 7 8 9
0.8
M
S A B
96 -
0.45 0.05
A
0.5
0.5
3
0.50
0.5
0.9
0.9
1.2
0.8
0.10MAX
0.5
0.08
(0.3)
(0.3)
(0.3)
(0.3)
Sony Corporation
96PIN LFLGA
PACKAGE MASS
PACKAGE STRUCTURE
ORGANIC SUBSTRATE
0.3g
PACKAGE MATERIAL
TERMINAL TREATMENT
TERMINAL MATERIAL
SONY CODE
EIAJ CODE
JEDEC CODE
LFLGA-96P-051
P-LFLGA96-12.0X8.0-0.8
1.3 MAX
S
0.10
DETAIL X
S
S
0.2
PIN 1 INDEX
X
B
B
0.2
12.0
S
8.0
A
0.2
S
0.15
x4
0.8
B
D
E
F
G
H
J
K
L
C
A
M
N
1 2 3 4 5 6 7 8 9
0.8
M
S A B
96 -
0.45
0.05
A
0.5
0.5
3
0.50
0.5
0.9
0.9
1.2
0.8
0.10MAX
0.5
0.08
(0.3)
(0.3)
(0.3)
(0.3)
NICKEL & GOLD PLATING
COPPER
Oita Ass'y
HITACHI TOKYO Ass'y
PDF 
ZIP