MITSUBISHI M56694FP

MITSUBISHI <CONTROL / DRIVER IC>
M56694FP/GP
Bi-CMOS & DMOS 32BIT SERIAL-INPUT LATCHED DRIVER
DESCRIPTION
The M56694 is a semiconductor integrated circuit that has a built-
PIN CONFIGURATION (TOP VIEW)
in, 32-bit shift register and a latch of CMOS structure with serial
input and serial/parallel output, and a 32-bit totem-pole-type
● Operating temperature: -20 – 75°C
23 HVO22
24 HVO21
25 HVO20
26 HVO19
27 HVO18
28 HVO17
29 HVO16
30 HVO15
19 HVO26
18 HVO27
38
M56694FP
39
17 HVO28
16 HVO29
41
15 HVO30
42
14 HVO31
43
13 HVO32
44
12 PGND
5
4
3
FUNCTION
2
Vacuum Fluorescent Display ANODE DRIVER
1
40
PGND
VH
SIN
BLK
LAT
APPLICATION
20 HVO25
37
VDD 9
SOUT 10
VH 11
● Driver section supply voltage: VH=120V
21 HVO24
36
8
● Latch circuit included for each stage
22 HVO23
35
7
● Cascade connections possible through serial output
34
6
● Serial input-serial/parallel output
HVO11
HVO10
HVO 9
HVO 8
HVO 7
HVO 6
HVO 5
HVO 4
HVO 3
HVO 2
HVO 1
CLK
LGND
N.C
FEATURES
31 HVO14
Employed are Bi-CMOS and high pressure proof DMOS
processing technology.
32 HVO13
33 HVO12
parallel output driver of high pressure proof DMOS structure.
The M56694 comprises a 32-bit D type flip-flop with 32 latches
connected to its output.
Outline 44P6N-A (FP)
In accordance with truth table 1, inputting data to SIN and clock
pulse to CLK allows SIN signal to be put into the internal shift
register when the clock changes from “H” to “L”, and
simultaneously shift register data to be shifted sequentially.
25 HVO22
26 HVO21
27 HVO20
28 HVO19
29 HVO18
30 HVO17
31 HVO16
22 HVO23
40
21 HVO24
41
20 HVO25
42
19 HVO26
M56694GP
43
18 HVO27
PGND 12
11
10
9
13 HVO32
8
14 HVO31
48
7
15 HVO30
47
6
16 HVO29
46
5
17 HVO28
45
4
44
3
the latch.
23 N.C
39
VH
SIN
BLK
LAT
CLK
LGND
VDD
SOUT
VH
to be output if BLK input is turned to “H”, irrespective of data from
24 N.C
38
2
data from the latch to be output if BLK input is turned to “L”, and “L”
37
1
retained if LAT input is turned to “L”. Driver output HVOn allows
N.C
HVO11
HVO10
HVO 9
HVO 8
HVO 7
N.C
HVO 6
HVO 5
HVO 4
HVO 3
HVO 2
HVO 1
PGND
pass data through if LAT input is turned to “H”, and data to be
32 HVO15
In accordance with truth table 2, parallel output allows the latch to
33 HVO14
in the series.
34 HVO13
36 N.C
M56694 SIN when more than one M56694 is used to expand bits
35 HVO12
Serial output SOUT is used by connecting to the next stage
Outline 48P6D-A (GP)
N.C: no connection
MITSUBISHI <CONTROL / DRIVER IC>
M56694FP/GP
Bi-CMOS & DMOS 32BIT SERIAL-INPUT LATCHED DRIVER
BLOCK DIAGRAM (Note : Pin No. in paretheses are of M56694GP)
HVO 1
(1)
44
HVO 2
(48)
HVO 3
43
(47)
HVO30
42
HVO31
15
(15)
HVO32
14
(14)
13
(13)
Output
protect
circuit
VDD
2
11
9
1
(9)
VH
(3)(11)
PGND
12 (2)(12)
4
BLK
(5)
Q
Q
Q
Q
Q
Q
L D
L D
L D
L D
L D
L D
5
LAT
7
(6)
LGND
(8)
3
SIN
D Q
D Q
D Q
D Q
D Q
D Q
T
T
T
T
T
T
(4)
8
6
CLK
10 SOUT
(10)
N.C
(23)(24)(36)
(37)(43)
(7)
TRUTH TABLE
Truth table 1. Shift register section
CLK
Shift register operation
↓
DATA is shifted.
H or L
No changes.
Truth table 2. Latch and driver sections
Dn
LAT
BLK
HVOn
X
X
H
Output all “L”
H
H
L
H
L
H
L
L
X
L
L
Latch’s data output.
Dn=nth bit DFF retention data
HVOn=nth bit driver output
L=“L” level
H=“H” level
X=“L” level or “H” level
MITSUBISHI <CONTROL / DRIVER IC>
M56694FP/GP
Bi-CMOS & DMOS 32BIT SERIAL-INPUT LATCHED DRIVER
PIN FUNCTION DESCRIPTION
Pin name
VDD
LGND
VH
PGND
CLK
SIN
SOUT
LAT
BLK
HVO1 – 32
Function
Logic stage supply voltage
Logic stage ground
Output stage supply voltage
Output stage ground
Clock input for the internal shift resister. The data enter the internal shift resisters and the data in the shift registers will be
shifted in order by High to Low change of the clock.
Serial data input
Serial data output
Latch input. When the LATCH is set to “H”, the data in the shift resister will enter the each latch circuit.
When the LATCH input is set to “L”, the data will be held.
Enable input for output control. When the BLK input is set to “L”, data in the latch circuit will appear at outputs.
When the BLK input is set to “H”, all outputs will be set to “L”.
Output driver (push-pull)
ABSOLUTE MAXIMUM RATINGS (Ta=25°C, unless otherwise noted)
Symbol
VDD
VH
VI
VO
VHVO
Pd
Tstg
Parameter
Logic stage supply voltage
Output stage supply voltage
Logic inputs voltage
Logic outputs voltage
Output voltage
Power dissipation range
Storage temperature range
Conditions
Data output
High supply voltage output pin
Ta ≤ 25°C
Ratings
-0.3 – 7
-0.3 – 120
-0.3 – VDD+0.3
-0.3 – VDD+0.3
-0.3 – VH
940
-55 – 150
Unit
V
V
V
V
V
mW
°C
Ratings
4.5 – 5.5
10 – 110
-20 – 75
Unit
V
V
°C
RECOMMENDED OPERATING CONDITIONS
Symbol
VDD
VH
Topr
Parameter
Supply voltage
Supply voltage
Operating temperature
Conditions
ELECTRICAL CHARACTERISTICS (VDD=5V, VH=110V and Ta=25°C, unless otherwise noted)
Parameter
Symbol
IDD
Supply current 1
IH
Supply current 2
IIH
“H” input current
IIL
“L” input current
VHVOH
VHVOL
VOH
VOL
IHVOH
IHVOL
VTH
VTL
Driver output voltage
Logic output voltage
“H” output current
“L” output current
Output protect operating voltage
Test conditions
No load
Output all “L”, no load
Output all “H”, no load
Input pin
VIH=5V
SIN, LAT, CLK
VIL = 0V
BLK
IHVOH = -0.5mA
IHVOL = 0.5mA
IOH = -0.1mA
IOL = +0.1mA
High supply voltage output pin
High supply voltage output pin
Min.
Limits
Typ.
1
0
2
0
0
100
4.5
-20
106
0.7
4.95
0.04
-1
1
3.4
3.1
Max.
2
50
4
2
-2
-100
2
0.4
-3
3
Unit
mA
µA
mA
µA
µA
µA
V
V
mA
mA
V
V
MITSUBISHI <CONTROL / DRIVER IC>
M56694FP/GP
Bi-CMOS & DMOS 32BIT SERIAL-INPUT LATCHED DRIVER
SWITCHING CHARACTERISTICS (VDD=5V, VH=110V and Ta=25°C, unless otherwise noted)
Parameter
Symbol
fCLK
t PLH(SO)
t PHL(SO)
t PLH(OUT)
t PHL(OUT)
t rout
t fout
Test conditions
Clock frequency
Min.
Limits
Typ.
Max.
Duty = 45 – 55%
CL = 15pF
Logic output propagation time
Driver output propagation time
8
300
300
2
1
2.5
120
100
1
0.16
1.3
0.35
RO = 220KΩ
CO = 50pF
Driver output rise and fall time
2
TEST CIRCUIT
input
VDD
VH
SOUT
PG
DUT
CL
(1) Pulse generator characteristics
tr≤20ns
tf≤20ns
(2) Capacitance CL includes connection
floating capacitance and probe input
capacitance.
: RO=220KΩ
: CO=50pF
HVOn
50Ω
CO
RO
TIMING WAVEFORM
1/fmax
CLK
50%
50%
SIN
50%
50%
50%
tsu
th
trso
tfso
SOUT
90%
50%
10%
90%
50%
10%
tPHL(SO)
tPLH(SO)
BLK
50%
50%
trOUT
HVOn
10%
tPLH(OUT)
tfOUT
90%
50%
90%
50%
tPHL(OUT)
10%
Unit
MHz
ns
ns
µs
µs
µs
µs
MITSUBISHI <CONTROL / DRIVER IC>
M56694FP/GP
Bi-CMOS & DMOS 32BIT SERIAL-INPUT LATCHED DRIVER
TYPICAL CHARACTERISTICS
Thermal derating
Driver output VON–IOH
10
Ta=+75°C
0.5
0
8
“H” output current IOH(mA)
Power dissipation Pd(W)
1.0
0.94
Ta=+25°C
Ta=-20°C
6
4
2
0
0
25
50
75
0
100
2
Duty cycle vs Permissible
output current
1 – 13
16
8
7
24
6
5
32
4
3
7
6
4
24
3
32
2
1
100
Duty cycle (%)
Note • Ta=25°C
• Repeated frequency >100Hz
• Figure in the circle represents the number of
concurrently operating output circuits.
• Current value denotes a numerical value per circuit.
16
5
1
80
9
8
2
0
1 – 8
9
Output current IOH(mA)
Output current IOH(mA)
9
60
10
10
14
40
8
Duty cycle vs Permissible
output current
10
20
6
“H” output voltage VON(V)
Temperature Ta(°C)
0
4
0
0
20
40
60
80
100
Duty cycle (%)
Note • Ta=75°C
• Repeated frequency >100Hz
• Figure in the circle represents the number of
concurrently operating output circuits.
• Current value denotes a numerical value per circuit.
Note 1. VDD=5V and VH=110V, unless otherwise noted
2. Thermal derating characteristics represent those of an individual IC unit.
3. Allowable duty cycle output current characteristics represent that when a standard
substrate is mounted. (Standard substrate: 70x70x1.6mm glass epoxy)