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Электронный компонент: HD29026AP

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HD29026A/HD29027/HD29028
Dual CCD Drivers
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 (C
L
) 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
Function Table
Pin Arrangement
Product name
Supply voltage
Package
HD29026AP
12 V
300 mil 8-pin plastic DIP (DP-8)
HD29026AFP
225 mil 8-pin plastic SOP (FP-8D)
HD29027P
6 V
300 mil 8-pin plastic DIP (DP-8)
HD29027FP
225 mil 8-pin plastic SOP (FP-8D)
HD29028P
12 V
300 mil 8-pin plastic DIP (DP-8)
HD29028FP
225 mil 8-pin plastic SOP (FP-8D)
Input A
Output Y
H
L
L
H
Note: H: High level
NC
1A
GND
2A
NC
1Y
V
2Y
1
2
3
4
8
7
6
5
CC
Absolute Maximum Ratings
Recommended Operating
Conditions
Item
Symbol
Rating
Unit
Supply voltage
HD29026A
V
C C
*1
15
V
HD29027
10
HD29028
15
Input voltage
V
I
7
V
Output peak current
l
O(peak)
1
A
Operating temperature range
Ta
20 to +75
C
Storage temperature range
T
stg
65 to +150
C
Junction temperature
T
j
150
C
Total dissipation
P
T
*2
DP-8
1
W
FP-8D
0.735
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.
Item
Symbol
Min
Typ
Max
Unit
Supply voltage
HD29026A
V
C C
8
12
13
V
HD29027
V
C C
4.5
6
8
HD29028
V
C C
8
9
13
Operating temperature
Ta
20
25
75
C
(DP-8)
1.0
0.6
0.5
0
P
(W)
T
20
25
0
75
50
T (C)
(FP-8D)
1.0
0.5
0.44
0
P
(W)
T
20
25
0
75
50
0.735
a
T (C)
a
1,000
750
500
250
0
0.5
1.0
3.0 5.0
10.0
20.0
V = 13 (V)
V = 12.0 (V)
V = 9.0 (V)
V = 8.0 (V)
CC
CC
CC
CC
T = 75 (C)
a
Operating Frequency (MHz)
Load Capacitance (pF)
1,000
750
500
250
0
0.5
1.0
3.0 5.0
10.0
20.0
V = 8.0 (V)
V = 6.0 (V)
V = 4.5 (V)
CC
CC
CC
T = 75 (C)
a
Operating Frequency (MHz)
Load Capacitance (pF)
HD29027
1,000
750
500
250
0
0.5
1.0
3.0 5.0
10.0
20.0
V = 13 (V)
V = 12.0 (V)
V = 9.0 (V)
V = 8.0 (V)
CC
CC
CC
CC
T = 75 (C)
a
Operating Frequency (MHz)
Load Capacitance (pF)
HD29028
HD29026A
Electrical Characteristics (Ta = 20 to +75 C)
Item
Symbol
Min
Typ
Max
Unit
Test Conditions
Input voltage
V
IH
2.0
V
V
IL
0.6
Output voltage
V
O H
V
C C
1
V
V
IL
= 0.6 V,
I
O H
= 1
mA
V
O L
0.5
V
IH
= 2.0 V,
I
O L
= 1 mA
Input current
I
IH
20
A
V
I
= 2.7 V
HD29026A/28
I
IL
100
V
I
= 0.4 V
HD29027
200
Supply current
HD29026A
I
C C H
12
m A
HD29027
20
HD29028
15
HD29026A
I
C C L
20
HD29027
30
HD29028
25
Input current
I
I
100
A
V
I
= 7 V
Input clamp voltage
V
IK
1.5
V
I
IN
= 18
mA
Note: HD29026A/28: V
CC
= 8 to 13 V
HD29027: V
CC
= 4.5 to 8 V
Switching Characteristics (Ta = 25 C)
Item
Symbol
Min
Typ
Max
Unit
Test Conditions
HD29026A
t
PHL
16
20
ns
C
L
= 1000 pF V
C C
= 8 V
11
15
V
C C
= 12 V
HD29027
10
15
V
C C
= 6 V
HD29028
10
15
V
C C
= 9 V
8
13
V
C C
= 12 V
HD29026A
t
PLH
18
25
ns
C
L
= 1000 pF V
CC
= 8 V
13
20
V
C C
= 12 V
HD29027
10
15
V
C C
= 6 V
HD29028
10
15
V
C C
= 9 V
8
13
V
C C
= 12 V
HD29026A
t
THL
17
21
ns
C
L
= 250 pF
V
C C
= 8 V
12
16
V
C C
= 12 V
HD29027
9
14
V
C C
= 6 V
HD29028
9
13
V
C C
= 9 V
7
14
V
C C
= 12 V
HD29026A
20
23
C
L
= 500 pF
V
C C
= 8 V
15
18
V
C C
= 12 V
HD29027
12
17
V
C C
= 6 V
HD29028
12
17
V
C C
= 9 V
10
15
V
C C
= 12 V
HD29026A
25
40
C
L
= 1000 pF V
C C
= 8 V
20
35
V
C C
= 12 V
HD29027
20
25
V
C C
= 6 V
HD29028
20
25
V
C C
= 9 V
18
23
V
C C
= 12 V
HD29026A
t
TLH
15
20
ns
C
L
= 250 pF
V
C C
= 8 V
10
15
V
C C
= 12 V
HD29027
9
14
V
C C
= 6 V
HD29028
9
14
V
C C
= 9 V
7
12
V
C C
= 12 V
HD29026A
21
25
C
L
= 500 pF
V
C C
= 8 V
16
20
V
C C
= 12 V
HD29027
12
17
V
C C
= 6 V
HD29028
12
17
V
C C
= 9 V
10
15
V
C C
= 12 V
HD29026A
22
30
C
L
= 1000 pF V
C C
= 8 V
17
25
V
C C
= 12 V
HD29027
20
25
V
C C
= 6 V
HD29028
20
25
V
C C
= 9 V
18
23
V
C C
= 12 V
Fall propagation
Rise propagation
Fall (transition)
Rise (transition)