Timing Generator for Frame Readout CCD Image Sensor

Description

The CXD2497R is a timing generator IC which

generates the timing pulses for performing frame

readout using the ICX252, ICX262 CCD image sensor.

Features

· Base oscillation frequency 24 to 36MHz

· High-speed/low-speed shutter function

· Draft (sextuple speed)/AF (auto focus) drive

· Horizontal driver for CCD image sensor

· Vertical driver for CCD image sensor

Applications

Digital still cameras

Structure

Silicon gate CMOS IC

Applicable CCD Image Sensors

ICX252 (Type 1/1.8, 3240K pixels)

ICX262 (Type 1/1.8, 3240K pixels)

Pin Configuration

Absolute Maximum Ratings

· Supply voltage

0.3 to +7.0

10.0 to V

0.3 to +26.0

· Input voltage

0.3 to V

+ 0.3

· Output voltage

0.3 to V

+ 0.3

0.3 to V

+ 0.3

0.3 to V

+ 0.3

· Operating temperature

Topr

20 to +75

°C

· Storage temperature

Tstg

55 to +150

°C

Recommended Operating Conditions

· Supply voltage

3.0 to 5.5

a, V

c, V

3.0 to 3.6

0.0

14.5 to 15.5

7.0 to 8.0

· Operating temperature

Topr

20 to +75

°C

E99Y23-PS

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.

CXD2497R

48 pin LQFP (Plastic)

Groups of pins enclosed in the figure indicate

sections for which power supply separation is

possible.

XSHP

XSHD

XRS

PBLK

CLPDM

OBCLP

ADCLK

CKO

CKI

OSCO

OSCI

MCKO

SSI

SCK

SEN

SSGSL

WEN

SNCSL

RST

TEST2

SUB

V3B

V3A

V1B

V1A

TEST1

CXD2497R

Block Diagram

V1B

V3A

V1A

WEN

ADCLK

OBCLP

CLPDM

PBLK

MCKO

CKO

CKI

OSCO

OSCI

Pulse Generator

TEST2

TEST1

RST

SUB

V3B

SEN

SCK

SSI

V Driver

SSGSL

SNCSL

1/2

l
e

t
o

Selector

Latch

SSG

CXD2497R

Pin Description

GND

Internal system reset input. High: Normal operation, Low: Reset control
Normally apply reset during power-on.

Schmitt trigger input/No protective diode on power supply side

Control input used to switch sync system.

High: CKI sync, Low: MCKO sync

With pull-down resistor

Vertical direction line identification pulse output.

Memory write timing pulse output.

Internal SSG enable.

High: Internal SSG valid, Low: External sync valid

With pull-down resistor

3.3V power supply. (Power supply for common logic block)

3.3V power supply. (Power supply for RG)

CCD reset gate pulse output.

GND

CCD horizontal register clock output.

3.3 to 5.0V power supply. (Power supply for H1/H2)

3.3V power supply. (Power supply for CDS block)

CCD precharge level sample-and-hold pulse output.

CCD data level sample-and-hold pulse output.

Sample-and-hold pulse output for analog/digital conversion phase alignment.

Pulse output for horizontal and vertical blanking period pulse cleaning.

CCD dummy signal clamp pulse output.

GND

CCD optical black signal clamp pulse output.

Clock output for analog/digital conversion IC.
Logical phase adjustment possible using the serial interface data.

GND

Inverter output.

Inverter input.

Inverter output for oscillation.

When not used, leave open or connect a capacitor.

Inverter input for oscillation.

When not used, fix low.

3.3V power supply. (Power supply for common logic block)

System clock output for signal processing IC.

RST

SNCSL

WEN

SSGSL

XSHP

XSHD

XRS

PBLK

CLPDM

OBCLP

ADCLK

CKO

CKI

OSCO

OSCI

MCKO

Pin
No.

Symbol

I/O

Description

CXD2497R

Serial interface data input for internal mode settings.

Schmitt trigger input/No protective diode on power supply side

Serial interface clock input for internal mode settings.

Schmitt trigger input/No protective diode on power supply side

Serial interface strobe input for internal mode settings.

Schmitt trigger input/No protective diode on power supply side

Vertical sync signal input/output.

Horizontal sync signal input/output.

GND

IC test pin 1; normally fixed to GND.

With pull-down resistor

GND (GND for vertical driver)

CCD vertical register clock output.

15.0V power supply. (Power supply for vertical driver)

CCD vertical register clock output.

7.5V power supply. (Power supply for vertical driver)

CCD vertical register clock output.

CCD electronic shutter pulse output.

IC test pin 2; normally fixed to GND.

With pull-down resistor

SSI

SCK

SEN

TEST1

V1A

V1B

V3A

V3B

SUB

TEST2

I/O

Pin
No.

Symbol

I/O

Description

CXD2497R

Electrical Characteristics

DC Characteristics

(Within the recommended operating conditions)

DD2

DD3

DD4

DD1

, V

DD5

RST

SSI, SCK,
SEN,

TEST1,
TEST2

SNCSL,
SSGSL

VD, HD

H1, H2

XSHP, XSHD,
XRS, PBLK,
OBCLP,
CLPDM, ADCLK

CKO

MCKO

ID, WEN

V1A, V1B,
V3A, V3B,
V2, V4

SUB

IH1

IL1

IH2

IL2

IH3

IL3

OH1

OL1

OH2

OL2

OH3

OL3

OH4

OL4

OH5

OL5

OH6

OL6

OH7

OL7

OM1

OM2

OSL

OSH

3.0

0.8V

0.7V

0.8V

d 0.8

b 0.8

a 0.8

c 0.8

d 0.8

10.0

5.0

5.4

3.3

3.6

5.5

3.6

0.2V

0.3V

0.2V

0.4

5.0

7.2

4.0

Feed current where I

= 1.2mA

Pull-in current where I

= 2.4mA

Feed current where I

= 22.0mA

Pull-in current where I

= 14.4mA

Feed current where I

= 3.3mA

Pull-in current where I

= 2.4mA

Feed current where I

= 3.3mA

Pull-in current where I

= 2.4mA

Feed current where I

= 6.9mA

Pull-in current where I

= 4.8mA

Feed current where I

= 3.3mA

Pull-in current where I

= 2.4mA

Feed current where I

= 2.4mA

Pull-in current where I

= 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

Input voltage 2

Input voltage 3

Input voltage 4

Input/output
voltage

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

This input pin is a schmitt trigger input and it does not have protective diode of the power supply side in the IC.

These input pins are schmitt trigger inputs.

These input pins are with pull-down resistor in the IC.

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.

CXD2497R

Inverter I/O Characteristics for Oscillation

(Within the recommended operating conditions)

Item

Logical Vth

Input
voltage

Output
voltage

Feedback
resistor

Oscillation
frequency

Pins

OSCI

OSCO

OSCI,
OSCO

Symbol

LVth

RFB

Conditions

Feed current where I

= 3.6mA

Pull-in current where I

= 2.4mA

= V

d or V

Min.

0.7V

d 0.8

500k

Typ.

d/2

Max.

0.3V

0.4

Unit

MHz

Item

Logical Vth

Input
voltage

Input
amplitude

Pins

CKI

Symbol

LVth

Conditions

fmax 50MHz sine wave

Min.

0.7V

0.3

Typ.

d/2

Max.

0.3V

Unit

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

Typ.

350

Max.

500

1.0

Unit

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 (0.1µF 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.

CXD2497R

Measurement Circuit

10 11 12

CKI

CXD2497R

Serial interface data

+3.3V

7.5V

+15.0V

C1 3300pF

C2 560pF

C3 820pF

C4 30pF

C5 215pF

C6 10pF

R1 30

R2 10

CXD2497R

AC Characteristics

AC characteristics between the serial interface clocks

SSI

0.2V

DDd

0.2V

DDd

0.8V

DDd

ts2

th1

ts1

ts3

0.8V

DDd

0.8V

DDd

SCK

SEN

Symbol

Definition

SSI setup time, activated by the rising edge of SCK

SSI hold time, activated by the rising edge of SCK

SCK setup time, activated by the rising edge of SEN

SEN setup time, activated by the rising edge of SCK

Min.

Typ.

Max.

Unit

Serial interface clock internal loading characteristics (1)

(Within the recommended operating conditions)

th1

Enlarged view

Example: During frame mode

0.2V

DDd

ts1

0.2V

DDd

V1A

SEN

0.8V

DDd

Symbol

Definition

SEN setup time, activated by the falling edge of HD

SEN hold time, activated by the falling edge of HD

Min.

Typ.

Max.

102

Unit

µs

Be sure to maintain a constantly high SEN 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)

CXD2497R

Serial interface clock output variation characteristics

Normally, the serial interface data is loaded to the CXD2497R 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 CXD2497R and controlled at the rising edge of SEN. See "Description of Operation".

0.8V

DDd

SEN

Output signal

tpdPULSE

Symbol

tpdPULSE

Definition

Output signal delay, activated by the rising edge of SEN

Min.

Typ.

Max.

100

Unit

(Within the recommended operating conditions)

Serial interface clock internal loading characteristics (2)

th1

Enlarged view

0.2V

DDd

ts1

0.2V

DDd

SEN

0.8V

DDd

Example: During frame mode

Symbol

Definition

SEN setup time, activated by the falling edge of VD

SEN hold time, activated by the falling edge of VD

Min.

Typ.

Max.

200

Unit

Be sure to maintain a constantly high SEN logic level near the falling edge of VD.

(Within the recommended operating conditions)

CXD2497R

RST

0.2V

DDd

tw1

0.8V

DDd

VD, HD

MCKO

ts1

th1

0.2V

DDd

0.8V

DDd

0.2V

DDd

RST loading characteristics

Symbol

Definition

RST pulse width

Min.

Typ.

Max.

Unit

(Within the recommended operating conditions)

VD and HD loading characteristics

Symbol

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.

Unit

MCKO load capacitance = 10pF

(Within the recommended operating conditions)

0.8V

DDd

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.

Unit

Output variation characteristics

CXD2497R

Description of Operation

Pulses output from the CXD2497R are controlled mainly by the RST pin and by the serial interface data. The

Pin Status Table is shown below, and the details of serial interface control are described on the following

pages.

Pin Status Table

It is for output. For input, all items are "ACT".

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 42), VM (Pin 38) and VL (Pin 45),

respectively, in the controlled status.

No.

RST

SNCSL

WEN

SSGSL

XSHP

XSHD

XRS

PBLK

CLPDM

OBCLP

ADCLK

ACT

CKO

CKI

OSCO

OSCI

MCKO

SSI

SCK

SEN

TEST1

V1A

V1B

V3A

V3B

SUB

TEST2

ACT

DIS

Symbol

CAM

SLP

STB

RST

No.

Symbol

CAM

SLP

STB

RST

CXD2497R

Serial Interface Control

The CXD2497R basically loads and reflects the 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 serial interface data at the falling edge of VD or the rising edge of SEN.

SSI

SCK

SEN

There are two categories of serial interface data: CXD2497R drive control data (hereafter "control data") and

electronic shutter data (hereafter "shutter data").

The details of each data are described below.

CXD2497R

Control Data

Data

D00

D07

D08

D09

D10

D12

D13

D14

D15

D16

D23

D24

D33

D34

D35

D36

D37

D38

D39

D40

D47

Symbol

CHIP

CTG

MODE

SMD

PTSG

CDAT

LDAD

STB

Function

Chip enable

Category switching

Drive mode switching

Electronic shutter mode switching

Internal SSG output pattern switching

AF drive control data

ADCLK logic phase switching

Standby control

Data = 0

Data = 1

10000001

Enabled

Other values

Disabled

See D08 to D09 CTG.

See D10 to D12 MODE.

See D13 to D14 SMD.

NTSC equivalent

PAL equivalent

See D16 to D23 CDAT.

See D36 to D37 LDAD.

See D38 to D39 STB.

RST

All

CXD2497R

Shutter Data

Data

D00

D07

D08

D09

D10

D19

D20

D31

D32

D41

D42

D47

Symbol

CHIP

CTG

SVD

SHD

SPL

Function

Chip enable

Category switching

Electronic shutter vertical period
specification

Electronic shutter horizontal period
specification

High-speed shutter position
specification

Data = 0

Data = 1

10000001

Enabled

Other values

Disabled

See D08 to D09 CTG.

See D10 to D19 SVD.

See D20 to D31 SHD.

See D32 to D41 SPL.

RST

All

CXD2497R

Detailed Description of Each Data

Shared data: D08 to D09 CTG [Category]

Of the data provided to the CXD2497R by the serial interface, the CXD2497R loads D10 and subsequent data

to each data register as shown in the table below according to the combination of D08 and D09 .

D09

D08

Description of operation

Loading to control data register

Loading to shutter data register

Test mode

Note that the CXD2497R 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 D12 MODE [Drive mode]

The CXD2497R drive mode can be switched as follows. However, the drive mode bits are loaded to the

CXD2497R and reflected at the falling edge of VD.

D11

D12

D10

Description of operation

Draft mode (sextuple speed: default)

Frame mode (A field readout)

Frame mode (B field readout)

Frame mode

AF1 mode

AF2 mode

Control data: D15 PTSG [Internal SSG output pattern]

The CXD2497R internal SSG output pattern can be switched as follows. However, the drive mode bits are

loaded to the CXD2497R and reflected at the falling edge of VD.

D15

Description of Operation

NTSC equivalent pattern

PAL equivalent pattern

VD period in each pattern is defined as follows.

Only 944H and 945H are 1208ck period.

See the Timing Charts for the actual operation.

NTSC equivalent pattern

PAL equivalent pattern

Frame mode

918H + 1716ck

945H

Draft mode

262H + 1144ck

314H + 1568ck

AF1 mode

131H + 572ck

157H + 784ck

AF2 mode

65H + 1430ck

78H + 1536ck

CXD2497R

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 is switched as follows. However, the standby bits are loaded to the CXD2497R and

control is applied immediately at the rising edge of SEN.

D37

D36

Degree of adjustment (°)

180

270

D39

D38

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.

CXD2497R

The frame shift data is expressed as shown in the table below using D16 to D23 CDAT.

MSB

LSB

D23

D22

D21

D20

D19

D18

D17

D16

CDAT is expressed as 69h .

Its definition area is specified as follows.

AF1 mode: 00h

CDAT

FFh (11 to 23H)

AF2 mode: 00h

CDAT

FFh (14 to 27H)

Control data: [AF drive]

The CXD2497R controls the drive of the vertical cut-out area of line in AF1/AF2 mode by using control data

D16 to D23 CDAT. This mode has a function on purpose to raise frame rate for auto focus (AF), and this

mode cannot support operation such as electrical image stabilization.

AF drive bits are loaded to the CXD2497R and reflected at the falling edge of VD. As shown in the figure

below, first, the fixed stage is swept at high speed, and it goes to readout period and vertical OB period. Then

normal transfer is performed equivalent to draft mode from the frame shift of the stage specified by the serial

interface data to the timing of the falling edge of the next VD.

Therefore, the number of frame shift stages applied to CDAT and the control by VD period are conditions for

its application.

V1A

Vck

MODE

00h

FFh

CDAT

00h

Frame shift

Normal transfer

High-speed sweep

The number of high-speed sweeps are different according to the selected mode. It is specified as follows.

AF1 mode: 138 stages (0 to 7H)

AF2 mode: 208 stages (0 to 11H)

CXD2497R

Control data/shutter data: [Electronic shutter]

The CXD2497R realizes various electronic shutter functions by using control data D13 to D14 SMD and

shutter data D10 to D19 SVD, D20 to D31 SHD and D32 to D41 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

D13

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 D20 to D31 SHD as an example.

However, MSB (D31) is a reserve bit for the future specification, and it is handled as dummy on this IC.

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 "000h". (See the figure.) During low-speed shutter, or in other words when

SVD is set to "001h" 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). However, in the frame

mode A field, it matches (number of SUB pulses + 1). This is a specification for flickerless when the same mode

is repeated. But this change may not occur because of flickerless by the conditions during low-speed shutter.

Note) The bit data definition area is assured in terms of the CXD2497R functions, and does not assure the

CCD characteristics.

Symbol

SVD

SHD

SPL

Data

D10 to D19

D20 to D31

D32 to D41

Description

Number of vertical periods specification (000h

SVD

3FFh)

Number of horizontal periods specification (000h

SHD

7FFh)

Vertical period specification for high-speed shutter operation (000h

SPL

3FFh)

MSB

LSB

D29

D28

D31

D30

D27

D26

D25

D24

D23

D22

D21

D20

CXD2497R

SHD

V1A

SUB

WEN

SMD

000h

002h

SVD

050h

10Fh

SHD

SVD

SPL

SHD

V1A

SUB

WEN

SMD

000h

001h

SPL

000h

002h

SVD

0A3h

10Fh

SHD

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 "000h", "001h", "002h" 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.

CXD2497R

Chart-1

Vertical Direction Timing Chart

MODE

Frame mode

Applicable CCD image sensor

· ICX252/ICX262

i
g

-
s

l
o

i
g

-
s

l
o

3
1

I
D

i
e

l
d

i
e

l
d

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.

VD of this chart is NTSC equivalent pattern (918H + 1716ck units). For PAL equivalent pattern, it is 945H units, but 1208ck per

iod as for 944H and 945H.

CXD2497R

Chart-2

Vertical Direction Timing Chart

MODE

Draft mode

Applicable CCD image sensor

· ICX252/ICX262

I
D

8
1

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.

VD of this chart is NTSC equivalent pattern (262H + 1144ck units). For PAL equivalent pattern, it is 314H + 1568ck units.

CXD2497R

Chart-3

Vertical Direction Timing Chart

MODE

AF1 mode

Applicable CCD image sensor

· ICX252/ICX262

I
D

r
a

i
f
t

b

l
o

r
a

i
f
t

b

l
o

i
g

-
s
p

s
w

l
o

c
k

i
g

-
s
p

s
w

l
o

c
k

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.

138 stages are fixed for high-speed sweep block; 0 to 255 stages are specified by the serial interface for frame shift block.

VD of this chart is NTSC equivalent pattern (131H + 572ck units). For PAL equivalent pattern, it is 157H + 784ck units.

CXD2497R

Chart-4

Vertical Direction Timing Chart

MODE

AF2 mode

Applicable CCD image sensor

· ICX252/ICX262

I
D

i
g

-
s

l
o

r
a

i
f
t

b

l
o

i
g

-
s

l
o

r
a

i
f
t

b

l
o

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.

208 stages are fixed for high-speed sweep block; 0 to 255 stages are specified by the serial interface for frame shift block.

VD of this chart is NTSC equivalent pattern (65H + 1430ck units). For PAL equivalent pattern, it is 78H + 1536ck units.

CXD2497R

Chart-5

Horizontal Direction Timing Chart

MODE

Frame mode

Applicable CCD image sensor

· ICX252/ICX262

/
B

(
2

)

I
D

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

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.

CXD2497R

Chart-6

Horizontal Direction Timing Chart

MODE

Draft/AF1/AF2 mode

Applicable CCD image sensor

· ICX252/ICX262

/
B

(
2

)

I
D

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

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, 3 and 4.

CXD2497R

Chart-7

Horizontal Direction Timing Chart

(High-speed sweep: C)

MODE

Frame mode

Applicable CCD image sensor

· ICX252/ICX262

/
B

(
2

)

I
D

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

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 26H of 768ck (#1038).

CXD2497R

Chart-8

Horizontal Direction Timing Chart

(High-speed sweep: F)

(Frame shift: G)

MODE

AF1/AF2 mode

Applicable CCD image sensor

· ICX252/ICX262

/
B

(
2

)

I
D

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

SUB is output at the timing shown above when output is controlled by the serial interface data.

WEN are output at the timing shown above at the position shown in Chart-3 and 4.

High-speed sweep of V1A/B, V2, V3A/B and V4 is performed up to 6H of 2056ck (#138) in AF1 mode and 10H of 884ck (#208) in AF2 m

ode.

Frame shift of V1A/B, V2, V3A/B and V4 receives the output control by the serial interface data and it can specify up to #255 f

or both of AF1/AF2 mode.

ID is output at the timing shown with dotted line during frame shift.

CXD2497R

Chart-9

Horizontal Direction Timing Chart

MODE

Frame mode

Applicable CCD image sensor

· ICX252/ICX262

[
A

i
e

l
d

]

[
B

i
e

l
d

]

[
A

]

[
B

]

(
2

)

(
2

)

i
c

l
i
g

t

p

r
t
i
o

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

CXD2497R

Chart-10

Horizontal Direction Timing Chart

MODE

Draft /AF1/AF2 mode

Applicable CCD image sensor

· ICX252/ICX262

111

[
D

]

(
2

)

(
2

)

The HD of this chart indicates the actual CXD2497R 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 2.9 to 9.5

s (when the drive frequency is 18MHz). This chart shows a period of 115ck (6.4

s). Internal SSG is at the timing.

CXD2497R

Chart-11

High-speed Phase Timing Chart

MODE

Applicable CCD image sensor

· ICX252/ICX262

HD' indicates the HD which is the actual CXD2497R 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 data.

CXD2497R

Chart-12

Vertical Direction Sequence Chart

MODE

Draft

Frame

Draft

Applicable CCD image sensor

· ICX252/ICX262

i
c

t
t
e

r
e

t
i
m

l
o

This chart is a drive timing chart example of electronic shutter normal operation.

Data exposed at D includes blooming component. For details, see CCD image sensor specification.

CXD2497R does not generate the pulse to control mechanical shutter operation.

The switching timing of drive mode and electronic shutter data is not the same.

CXD2497R

Application Circuit Block Diagram

37 48

31 32

MCKO

CKO

D0 to 9

CCD OUT

V-Dr

VRT

DRVOUT

VRB

SSGSL

SNCSL

RST

WEN

V1B

V1A

SUB

V3B

V3A

CCD

ICX252/ICX262

S/H

CXA2006Q

CXD2497R

A/D

CXD2311AR

Controller

i
g

l

p

r
o

r

B

l
o

Notes for Power-on

Of the three 7.5V, +15.0V and +3.3V power supplies, be sure to start up the 7.5V and +15.0V power supplies

in the following order to prevent the SUB pin of the CCD image sensor from going to negative potential.

15.0V

7.5V

20%

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.

CXD2497R

SONY CODE

EIAJ CODE

JEDEC CODE

PACKAGE MATERIAL

LEAD TREATMENT

LEAD MATERIAL

PACKAGE MASS

EPOXY RESIN

PLATING

42/COPPER ALLOY

PACKAGE STRUCTURE

48PIN LQFP (PLASTIC)

9.0 ± 0.2

7.0 ± 0.1

(0.22)

0.18 0.03

+ 0.08

0.2g

LQFP-48P-L01

LQFP048-P-0707

(
8

.
0

)

.
5

.
2

0.127 0.02

+ 0.05

1.5 0.1

+ 0.2

0.1

SOLDER/PALLADIUM

NOTE: Dimension "

" does not include mold protrusion.

0.1 ± 0.1

.
5

.
2

0° to 10°

DETAIL A

0.13 M

0.5

DETAIL B:SOLDER

(0.18)

(
0

.
1

)

DETAIL B:PALLADIUM

.
1

.
0

0.18 0.03

+ 0.08

.
1

.
0

0.18 ± 0.03

Package Outline

Unit: mm

Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: ICX262

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: ICX262