Sony CXD3605R Datasheet

Timing Generator for Frame Readout CCD Image Sensor

Description

The CXD3605R is a timing generator IC which
generates the timing pulses for performing frame
readout using the ICX406 CCD image sensor.

Features

• Base oscillation frequency 36MHz

• High-speed/low-speed shutter function

• Supports draft (octuple 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

ICX406 (Type 1/1.8, 3980K pixels)

Pin Configuration

Absolute Maximum Ratings

• Supply voltage VDD VSS – 0.3 to +7.0 V

VL –10.0 to VSS V
VH VL – 0.3 to +26.0 V

• Input voltage VI VSS – 0.3 to VDD + 0.3 V

• Output voltage VO1 VSS – 0.3 to VDD + 0.3 V

VO2 VL – 0.3 to VSS + 0.3 V
VO3 VL – 0.3 to VH + 0.3 V

• Operating temperature
Topr –20 to +75 °C

• Storage temperature
Tstg –55 to +150 °C

Recommended Operating Conditions

• Supply voltage VDDb 3.0 to 5.25 V

VDDa, VDDc, VDDd 3.0 to 3.6 V

VM 0.0 V
VH 14.55 to 15.45 V
VL –7.0 to –8.0 V

• Operating temperature
Topr –20 to +75 °C

∗

Groups of pins enclosed in the figure indicate
sections for which power supply separation is
possible.

– 1 –

E00Z48

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.

CXD3605R

48 pin LQFP (Plastic)

1 2

3 4 5 6 7 8 9 10

11 12

13

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262728

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323334

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45

46

47

48

H2

V

DD3

V

DD4

XSHP

XSHD

XRS

PBLK

CLPDM

V

SS4

OBCLP

ADCLK

V

SS5

CKO

CKI

OSCO

OSCI

V

DD5

MCKO

SSI

SCK

SEN

VD

HD

V

SS6

H1

V

SS3VSS2

RG

VDD2

SSGSL

V

DD1

WEN

ID/EXP

SNCSL

RST

V

SS1

TEST2

SUB

V3B

VL

V3A

V1B

VH

V1A

V4

V2

VM

TEST1

– 2 –

CXD3605R

Block Diagram

35 34

39
44

43

41

5

4

24

23

22

20

19

21

181716

15

10

9

81113

12

14

28

27

26

25
30

V1B
V2

V3A

V1A

WEN

ID/EXP

V

SS5

ADCLK

OBCLP

CLPDM

PBLK

VSS4

XRS

XSHD

XSHP

VDD4

V

SS2

RG

V

DD2

V

SS3

H2

H1

V

DD3

VD

HD

7 29 1

VSS136VSS6

V

DD5VDD1

MCKO

CKO

CKI

OSCO

OSCI

Pulse Generator

2
37
48

TEST2

TEST1

RST

45

38

42

47

40

46

VL

VM

VH

SUB

V4

V3B

31
32
33

SEN

SCK

SSI

Register

V Driver

6

SSGSL

3

SNCSL

1/2

1/2

Selector

Selector

Selector

Latch

SSG

– 3 –

CXD3605R

Pin Description

GND
Internal system reset input. High: Normal operation, Low: Reset control

Normally apply reset during power-on. Schmitt trigger input
Control input used to switch sync system. High: CKI sync, Low: MCKO sync

With pull-down resistor

Vertical direction line identification pulse output/exposure time identification pulse
output. Switching possible using the serial interface data. (Default: ID)

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
GND
CCD horizontal register clock output.
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.

The horizontal/vertical OB pattern can be changed using the serial interface data.
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.

1
2

3

4
5
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7

8

9
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19
20
21

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24

25
26
27
28
29
30

VSS1
RST

SNCSL

ID/EXP
WEN
SSGSL
VDD1

VDD2
RG
VSS2
VSS3
H1
H2
VDD3
VDD4
XSHP
XSHD
XRS
PBLK
CLPDM
V

SS4

OBCLP

ADCLK
V

SS5

CKO
CKI
OSCO
OSCI
V

DD5

MCKO

—

I

I

O
O

I

—
—

O

—
—

O
O

—
—

O
O
O
O
O

—

O

O

—

O

I

O

I

—

O

Pin
No.

Symbol I/O

Description

– 4 –

CXD3605R

Serial interface data input for internal mode settings.

Schmitt trigger input

Serial interface clock input for internal mode settings.

Schmitt trigger input

Serial interface strobe input for internal mode settings.

Schmitt trigger input
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.
CCD vertical register clock output.
CCD vertical register clock output.

15.0V power supply. (Power supply for vertical driver)
CCD vertical register clock output.
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 registor

31

32

33
34

35
36
37
38
39
40
41
42
43
44
45
46
47
48

SSI

SCK

SEN
VD

HD
VSS6
TEST1
VM
V2
V4
V1A
VH
V1B
V3A
VL
V3B
SUB
TEST2

I

I

I

I/O
I/O

—

I

—

O
O
O

—

O
O

—

O
O

I

Pin

No.

Symbol I/O

Description

– 5 –

CXD3605R

Electrical Characteristics

DC Characteristics (Within the recommended operating conditions)

VDD2

VDD3

VDD4

VDD1, VDD5
RST, SSI, SCK,

SEN
TEST1, TEST2,

SNCSL, SSGSL

VD, HD

H1, H2

RG

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

CKO

MCKO

ID/EXP,
WEN

V1A, V1B,
V3A, V3B,
V2, V4

SUB

VDDa

VDDb

VDDc

VDDd
Vt+

Vt–
VIH1
VIL1
VIH2
VIL2
VOH1
VOL1
VOH2
VOL2
VOH3
VOL3

VOH4

VOL4
VOH5

VOL5
VOH6
VOL6
VOH7
VOL7
IOL
IOM1
IOM2
IOH
IOSL
IOSH

3.0

3.0

3.0

3.0

0.8VDDd

0.7VDDd

0.8VDDd

VDDd – 0.8

VDDb – 0.8

VDDa – 0.8

VDDc – 0.8

VDDd – 0.8

VDDd – 0.8

V

DDd – 0.8

10.0

5.0

5.4

3.3

3.3

3.3

3.3

3.6

5.25

3.6

3.6

0.2V

DDd

0.2VDDd

0.2VDDd

0.4

0.4

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
V
V
V

V
mA
mA
mA
mA
mA
mA

Feed current where IOH = –1.2mA
Pull-in current where IOL = 2.4mA
Feed current where IOH = –22.0mA
Pull-in current where IOL = 14.4mA
Feed current where IOH = –3.3mA
Pull-in current where IOL = 2.4mA

Feed current where IOH = –3.3mA

Pull-in current where IOL = 2.4mA
Feed current where IOH = –6.9mA

Pull-in current where IOL = 4.8mA
Feed current where IOH = –3.3mA
Pull-in current where IOL = 2.4mA
Feed current where IOH = –2.4mA
Pull-in current where IOL = 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/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

∗1

This input pin is a schmitt trigger input.

∗2

This input pin is with pull-down registor in the IC.

Note) The above table indicates the condition for 3.3V drive.

– 6 –

CXD3605R

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
VIH
VIL
VOH
VOL

RFB

f

Conditions

Feed current where IOH = –3.6mA
Pull-in current where IOL = 2.4mA

VIN = VDDd or VSS

Min.

0.7VDDd

VDDd – 0.8

500k

20

Typ.

VDDd/2

2M

Max.

0.3VDDd

0.4
5M

50

Unit

V

V

V

V

V

Ω

MHz

Item

Logical Vth

Input voltage

Input amplitude

Pins

CKI

Symbol

LVth
VIH
VIL
VIN

Conditions

fmax 50MHz sine wave

Min.

0.7VDDd

0.3

Typ.

VDDd/2

Max.

0.3VDDd

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)

Note)

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.

– 7 –

CXD3605R

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

– 8 –

CXD3605R

Measurement Circuit

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3 4 5 6 7 8 9 10

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25

262728

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31

323334

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36

37
38
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40
41
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43
44
45
46
47
48

VD

CKI

C6

C6

C6
C6

C6
C6
C6
C6
C6

C5

C5C4

C3

CXD3605R

Serial interface data

HD

+3.3V
–7.5V

+15.0V

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

C1 3300pF C2 560pF C3 820pF C4 8pF C5 215pF C6 10pF
R1 30Ω R2 10Ω

– 9 –

CXD3605R

AC Characteristics

AC characteristics between the serial interface clocks

SSI

0.2VDDd

0.2VDDd

0.8V

DDd

ts2

th1ts1

ts3

0.8V

DDd

0.8V

DDd

SCK

SEN

SEN

Symbol

ts1
th1
ts2
ts3

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.

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

DDd

ts1

0.2V

DDd

V1A

VD

HD

HD

V1A

SEN

0.8V

DDd

Symbol

ts1
th1

Definition
SEN setup time, activated by the falling edge of HD
SEN hold time, activated by the falling edge of HD

Min. Typ. Max.

0

110

Unit

ns
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)

– 10 –

CXD3605R

Serial interface clock output variation characteristics

Normally, the serial interface data is loaded to the CXD3605R 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 CXD3605R and controlled at the rising edge of SEN. See "Description of Operation".

0.8VDDd

SEN

Output signal

tpdPULSE

Symbol

tpdPULSE

Definition
Output signal delay, activated by the rising edge of SEN

Min. Typ. Max.

1005

Unit

ns

(Within the recommended operating conditions)

Serial interface clock internal loading characteristics (2)

th1

0.2V

DDd

ts1

0.2VDDd

VD

HD

VD

HD

SEN

0.8V

DDd

Enlarged view

Example: During frame mode

Symbol

ts1
th1

Definition
SEN setup time, activated by the falling edge of VD

SEN hold time, activated by the falling edge of VD

Min. Typ. Max.

0

200

Unit

ns
ns

∗

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

(Within the recommended operating conditions)

– 11 –

CXD3605R

RST

0.2VDDd
tw1

0.8VDDd

VD

HD

ts1

th1

0.2V

DDd

0.2V

DDd

0.2V

DDd

RST loading characteristics

Symbol

tw1

Definition

RST pulse width

Min. Typ. Max.25Unit

ns

(Within the recommended operating conditions)

VD and HD phase characteristics

Symbol

ts1
th1

Definition
VD setup time, activated by the falling edge of HD
VD hold time, activated by the falling edge of HD

Min. Typ. Max.

20

100

Unit

ns
ns

(Within the recommended operating conditions)

HD

MCKO

ts1

th1

0.2V

DDd

0.8V

DDd

0.2VDDd

HD loading characteristics

Symbol

ts1
th1

Definition
HD setup time, activated by the rising edge of MCKO

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)