HITACHI HD29026AFP

HD29026A/HD29027/HD29028
Dual CCD Drivers
ADE-205-001 (Z)
1st. Edition
Jul. 1990
Description
HD29026A, HD29027 and HD29028 include two on-chip drivers on a single chip, making it the optimal
choice as a CCD driver. Operation is provided with a TTL level input, and output current of 1 A is
available for both sink and source.
Features
•
•
•
•
High speed output rise and fall (20 ns typ) at load capacitance (CL ) of 1000 pF
Direct drive of input block by TTL eliminates the need for external components
Output swing voltage of 12 V; output current of 1 A available for both sink and source
Output wave cross point 50% typ
Ordering Information
Product name
Supply voltage
Package
HD29026AP
12 V
300 mil 8-pin plastic DIP (DP-8)
HD29026AFP
HD29027P
225 mil 8-pin plastic SOP (FP-8D)
6V
300 mil 8-pin plastic DIP (DP-8)
HD29027FP
HD29028P
225 mil 8-pin plastic SOP (FP-8D)
12 V
300 mil 8-pin plastic DIP (DP-8)
HD29028FP
225 mil 8-pin plastic SOP (FP-8D)
Function Table
Input A
Output Y
H
L
L
H
Note: H: High level
L: Low level
HD29026A/HD29027/HD29028
Pin Arrangement
NC 1
8 NC
1A 2
7 1Y
6 V CC
GND 3
5 2Y
2A 4
(Top view)
Absolute Maximum Ratings
Item
Symbol
Supply voltage
VCC*
HD29026A
1
Rating
Unit
15
V
HD29027
10
HD29028
15
Input voltage
VI
7
V
Output peak current
lO(peak)
±1
A
Operating temperature range
Ta
–20 to +75
°C
Storage temperature range
Tstg
–65 to +150
°C
Junction temperature
Tj
150
°C
DP-8
1
W
FP-8D
0.735
Total dissipation
PT*
2
Notes: 1. If no value is specified, the voltage is defined by the GND pin.
2. Value when Ta = 25°C. Heat dissipation is required for large-capacitance, high-frequency
drivers, so derating of 8 mW/°C (DP-8) and 5.9 mW/°C (FP-8D) are required.
(DP-8)
(FP-8D)
1.0
1.0
P T 0.6
(W) 0.5
0.735
PT
(W) 0.5
0.44
0
–20
0
25
50
75
0
–20
Ta (°C)
Figure 1 Package Derating Curves
2
0
25
Ta (°C)
50
75
HD29026A/HD29027/HD29028
Recommended Operating Conditions
Item
Supply voltage
Operating temperature
Symbol
Min
Typ
Max
Unit
HD29026A
VCC
8
12
13
V
HD29027
VCC
4.5
6
8
HD29028
VCC
8
9
13
Ta
–20
25
75
°C
3
HD29026A/HD29027/HD29028
Recommonded Operating Frequency Area
HD29026A
Load Capacitance (pF)
VCC = 13 (V)
VCC = 12.0 (V)
Ta = 75 (°C)
VCC = 9.0 (V)
VCC = 8.0 (V)
1,000
750
500
250
0
0.5
1.0
3.0 5.0
10.0
20.0
Operating Frequency (MHz)
HD29027
HD29028
VCC = 13 (V)
VCC = 12.0 (V)
Ta = 75 (°C)
VCC = 9.0 (V)
VCC = 8.0 (V)
1,000
VCC = 8.0 (V)
VCC = 6.0 (V)
Ta = 75 (°C)
VCC = 4.5 (V)
Load Capacitance (pF)
Load Capacitance (pF)
1,000
750
500
250
0
0.5
500
250
0
1.0
3.0 5.0
10.0
Operating Frequency (MHz)
4
750
20.0
0.5
1.0
3.0 5.0
10.0
Operating Frequency (MHz)
20.0
HD29026A/HD29027/HD29028
Electrical Characteristics (Ta = –20 to +75°C)
Item
Symbol
Min
Typ
Max
Unit
Input voltage
VIH
2.0
—
—
V
VIL
—
—
0.6
VOH
VCC–1
—
—
VOL
—
—
0.5
I IH
—
—
20
HD29026A/28 I IL
—
—
–100
HD29027
—
—
–200
—
—
12
HD29027
—
—
20
HD29028
—
—
15
—
—
20
HD29027
—
—
30
HD29028
—
—
25
Output voltage
Input current
Supply current
HD29026A
HD29026A
I CCH
I CCL
V
Test Conditions
VIL = 0.6 V, IOH = –1 mA
VIH = 2.0 V, IOL = 1 mA
µA
VI = 2.7 V
VI = 0.4 V
mA
Input current
II
—
—
100
µA
VI = 7 V
Input clamp voltage
VIK
—
—
–1.5
V
I IN = –18 mA
Note: HD29026A/28: VCC = 8 to 13 V
HD29027: V CC = 4.5 to 8 V
Switching Characteristics (Ta = 25°C)
Item
Fall propagation
Symbol
Min
Typ
Max
Unit
Test Conditions
t PHL
—
16
20
ns
CL = 1000 pF
—
11
15
VCC = 12 V
HD29027
—
10
15
VCC = 6 V
HD29028
—
10
15
VCC = 9 V
—
8
13
VCC = 12 V
—
18
25
—
13
20
VCC = 12 V
HD29027
—
10
15
VCC = 6 V
HD29028
—
10
15
VCC = 9 V
—
8
13
VCC = 12 V
HD29026A
delay time
Rise propagation
HD29026A
delay time
t PLH
ns
CL = 1000 pF
VCC = 8 V
VCC = 8 V
5
HD29026A/HD29027/HD29028
Switching Characteristics (Ta = 25°C) (cont)
Item
Symbol
Min
Typ
Max
Unit
Test Conditions
Fall (transition) time HD29026A
t THL
—
17
21
ns
CL = 250 pF
—
12
16
VCC = 12 V
HD29027
—
9
14
VCC = 6 V
HD29028
—
9
13
VCC = 9 V
—
7
14
VCC = 12 V
—
20
23
—
15
18
VCC = 12 V
HD29027
—
12
17
VCC = 6 V
HD29028
—
12
17
VCC = 9 V
—
10
15
VCC = 12 V
—
25
40
—
20
35
VCC = 12 V
HD29027
—
20
25
VCC = 6 V
HD29028
—
20
25
VCC = 9 V
—
18
23
VCC = 12 V
—
15
20
—
10
15
VCC = 12 V
HD29027
—
9
14
VCC = 6 V
HD29028
—
9
14
VCC = 9 V
—
7
12
VCC = 12 V
—
21
25
—
16
20
VCC = 12 V
HD29027
—
12
17
VCC = 6 V
HD29028
—
12
17
VCC = 9 V
—
10
15
VCC = 12 V
—
22
30
—
17
25
VCC = 12 V
HD29027
—
20
25
VCC = 6 V
HD29028
—
20
25
VCC = 9 V
—
18
23
VCC = 12 V
HD29026A
HD29026A
Rise (transition) time HD29026A
HD29026A
HD29026A
6
t TLH
CL = 500 pF
CL = 1000 pF
ns
CL = 250 pF
CL = 500 pF
CL = 1000 pF
VCC = 8 V
VCC = 8 V
VCC = 8 V
VCC = 8 V
VCC = 8 V
VCC = 8 V
HD29026A/HD29027/HD29028
Switching Time Test Method
Test circuit
VCC
Input
Output
Pulse
Generator
Zout = 50 Ω
CL
Note:
CL includes stray capacitance of probe and other tools
Waveforms
10 ns
10 ns
90%
1.5 V
Input
Output
1.5 V
10%
10%
t PLH
t PHL
90%
90%
10%
t THL
Note:
3V
90%
10%
0V
VOH
VOL
t TLH
Input waveform: f = 1 MHz, duty cycle = 50%
7
HD29026A/HD29027/HD29028
Output Timing Characteristics (Ta = 25°C)
Item
Symbol
Min
Typ
Max
Unit
Test Conditions
Output wave cross point
VX
30
50
70
%
CL = 250 pF
30
50
70
CL = 500 pF
30
50
70
CL = 1000 pF
HD29027; VCC = 6 V, HD29028; VCC = 9, 12 V
Output Timing Characteristics Test Method (HD29027/28)
Test circuit
VCC
1A
2A
1Y
Pulse
Generator
Zout = 50 Ω
2Y
CL
Note:
CL
CL includes stray capacitance of probe and other tools
Waveform
10 ns
2A or 1A
1A or 2A
1Y or 2Y
2Y or 1Y
Note:
8
90%
10%
10 ns
90%
1.5 V
10%
70%
VX
30%
90%
3V
90%
1.5 V
10%
10%
0V
70%
70%
70%
30%
30%
VX
30%
Input waveform: f = 1 MHz, duty cycle = 50%
V OH
VOL
HD29026A/HD29027/HD29028
Output Timing Characteristics
HD29027
VCC = 6 V
Input
GND
2 V/div
Output
10 ns/div
GND
9
HD29026A/HD29027/HD29028
HD29028
VCC = 9 V
GND
Input
Output
GND
2 V/div
10 ns/div
VCC = 12 V
GND
Input
Output
GND
Input
Output
2 V/div
5 V/div
10 ns/div
10
10 ns/div
HD29026A/HD29027/HD29028
Typical Characteristic Curves
Supply current vs. operating frequency (HD29026A)
80
Ta = 25°C
V CC = 9 V
1 circuit operation
C L = 1000 pF
Supply current (mA)
Supply current (mA)
80
60
500 pF
40
20
250 pF
T a = 25°C
C L = 1000 pF
V CC = 12 V
1 circuit operation
60
500 pF
40
250 pF
20
0 pF
0 pF
0
0.1 0.2
0.5
1.0
2
5
0
0.1 0.2
10
Operating frequency (MHz)
80
T a = 25°C
V CC = 9 V
2 circuit operations
60
C L = 1000 pF
40
250 pF
500 pF
1.0
2
5
10
Operating frequency (MHz)
Supply current (mA)
Supply current (mA)
80
0.5
20
T a = 25°C
V CC = 12 V
2 circuit operations
60
C L = 1000 pF
40
500 pF
250 pF
20
0 pF
0 pF
0
0.1 0.2
0.5
1.0
2
5
Operating frequency (MHz)
10
0
0.1 0.2
0.5
1.0
2
5
10
Operating frequency (MHz)
11
HD29026A/HD29027/HD29028
Supply current vs. operating frequency (HD29027)
150
150
T a = 25°C
V CC = 6 V
2 circuit operation
Supply current (mA)
Supply current (mA)
T a = 25°C
V CC = 6 V
1 circuit operation
100
C L = 1000 pF
50
500 pF
100
C L = 1000 pF
500 pF
50
250 pF
250 pF
0 pF
0 pF
0
0
0.1 0.2
0.5 1.0
2
5
10
0.1 0.2
0.5 1.0
2
5
10
Operating frequency (MHz)
Operating frequency (MHz)
Supply current vs. operating frequency (HD29028)
80
100
Ta = 25°C
V CC = 9 V
1 circuit operation
C L = 1000 pF
Supply current (mA)
Supply current (mA)
100
500 pF
60
250 pF
40
0 pF
20
0
0.1 0.2
0.5 1.0
2
5
Operating frequency (MHz)
12
10
80
T a = 25°C
C L = 1000 pF
V CC = 9 V
2 circuit operation
500 pF
60
250 pF
40
0 pF
20
0
0.1 0.2
0.5 1.0
2
5
Operating frequency (MHz)
10
HD29026A/HD29027/HD29028
80
100
T a = 25°C
C L = 1000 pF
V CC = 12 V
1 circuit operation
Supply current (mA)
Supply current (mA)
100
500 pF
60
250 pF
40
0 pF
20
0
0.1 0.2
0.5 1.0
2
5
80
T a = 25°C
C L = 1000 pF
V CC = 12 V
2 circuit operation
500 pF
60
250 pF
40
0 pF
20
0
10
Operating frequency (MHz)
0.1 0.2
0.5 1.0
2
5
10
Operating frequency (MHz)
Cautions (HD29026A only)
The short output rise and fall time, as well as the large output amplitude of this product tends to generate
overshooting and undershooting. The connection of 5 to 15 damping resistance (RD) to the output as
illustrated in figure 2 serves to
increase the output rise and fall time, making it possible to reduce the chance of overshooting and
undershooting. Figure 3 shows the characteristics that result for a damping resistance (RD) of 10 .
VCC
Input
RD
Pulse
Generator
Zout = 50 Ω
Output
CL
Note:
CL includes stray capacitance of probe and other tools
Figure 2
13
HD29026A/HD29027/HD29028
tTLH vs CL
40
30
40
Ta = 25 °C
VCC = 12 V
30
t TLH
(ns) 20
t TLH
(ns) 20
10
10
0
Ta = 25 °C
VCC = 8 V
0
200
400
600
C L (pF)
800
1000
200
400
600
C L (pF)
800
1000
800
1000
tTHL vs CL
40
30
40
Ta = 25 °C
VCC = 12 V
30
t THL
(ns) 20
t THL
(ns) 20
10
10
0
0
200
400
600
C L (pF)
800
1000
Figure 3
14
Ta = 25 °C
VCC = 8 V
200
400
600
C L (pF)
HD29026A/HD29027/HD29028
Package Dimensions
Unit: mm
6.3
7.4 Max
9.6
10.6 Max
8
5
1
0.89
4
1.3
7.62
0.1 Min
2.54 Min 5.06 Max
1.27 Max
+ 0.10
0.25 – 0.05
0.48 ± 0.10
2.54 ± 0.25
0° – 15°
Hitachi Code
JEDEC
EIAJ
Mass (reference value)
DP-8
Conforms
Conforms
0.54 g
Unit: mm
4.85
4.4
5.25 Max
5
8
1
0.75 Max
*0.22 ± 0.05
0.20 ± 0.04
2.03 Max
4
0.25
6.50 +– 0.15
1.05
1.27
*0.42 ± 0.08
0.40 ± 0.06
0.10 ± 0.10
0° – 8°
0.25
0.60 +– 0.18
0.15
0.12 M
*Dimension including the plating thickness
Base material dimension
Hitachi Code
JEDEC
EIAJ
Mass (reference value)
FP-8D
—
Conforms
0.10 g
15
HD29026A/HD29027/HD29028
Cautions
1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,
copyright, trademark, or other intellectual property rights for information contained in this document.
Hitachi bears no responsibility for problems that may arise with third party’s rights, including
intellectual property rights, in connection with use of the information contained in this document.
2. Products and product specifications may be subject to change without notice. Confirm that you have
received the latest product standards or specifications before final design, purchase or use.
3. Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,
contact Hitachi’s sales office before using the product in an application that demands especially high
quality and reliability or where its failure or malfunction may directly threaten human life or cause risk
of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,
traffic, safety equipment or medical equipment for life support.
4. Design your application so that the product is used within the ranges guaranteed by Hitachi particularly
for maximum rating, operating supply voltage range, heat radiation characteristics, installation
conditions and other characteristics. Hitachi bears no responsibility for failure or damage when used
beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable
failure rates or failure modes in semiconductor devices and employ systemic measures such as failsafes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other
consequential damage due to operation of the Hitachi product.
5. This product is not designed to be radiation resistant.
6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without
written approval from Hitachi.
7. Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor
products.
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Colophon 2.0
16