NSC MM58241N

MM58241 High Voltage Display Driver
General Description
Features
The MM58241 is a monolithic MOS integrated circuit utilizing CMOS metal gate low threshold P- and N-channel devices. It is available both in 40-pin molded dual-in-line packages or as dice. The MM58241 is particularly suited for driving high voltage (60V max) vacuum fluorescent (VF) displays (e.g., a 32-digit alphanumeric or dot matrix display).
Y
Applications
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
COPSTM or microprocessor-driven displays
Instrumentation readouts
Industrial control indicator
Digital clock, thermostat, counter, voltmeter
Word processor text displays
Automotive dashboards
Y
Direct interface to high voltage display
Serial data input
No external resistors required
Wide display power supply operation
LSTTL compatible inputs
Software compatible with NS display driver family
Compatible with alphanumeric or dot matrix displays
Display blanking control input
Simple to cascade
Block Diagram
TL/F/5600 – 1
FIGURE 1
COPSTM is a trademark of National Semiconductor Corporation.
C1995 National Semiconductor Corporation
TL/F/5600
RRD-B30M105/Printed in U. S. A.
MM58241 High Voltage Display Driver
September 1992
Absolute Maximum Ratings
Operating Conditions
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage (VDD)
VSS e 0V
Voltage at Any Input Pin
Display Voltage (VDIS)
Temperature Range
Min
VDD a 0.3V to VSS b 0.3V
VDD to VDD b 62.5V
62.5V
b 65§ C to a 150§ C
Voltage at Any Display Pin
VDD a lVDISl
Storage Temperature
Power Dissipation at a 25§ C
Molded DIP Package, Board Mount
Molded DIP Package, Socket Mount
Junction Temperature
Max
Units
V
V
§C
4.5
5.5
b 55
b 25
b 40
a 85
2.28W*
2.05W**
130§ C
Lead Temperature
(Soldering, 10 sec.)
260§ C
*Molded DIP Package, Board Mount, iJA e 46§ C/W,
Derate 21.7 mW/§ C above a 25§ C.
**Molded DIP Package, Socket Mount, iJA e 51§ C/W,
Derate 19.6 mW/§ C above a 25§ C.
DC Electrical Characteristics
TA e b40§ C to a 85§ C, VDD e 5V g 0.5V, VSS e 0V unless otherwise specified
Symbol
Parameter
Power Supply Currents
IDD
IDIS
Conditions
Min
Typ
VIN e VSS or VDD, VSS e 0V,
VDIS Disconnected
VDD e 5.5V, VSS e 0V, VDIS e b55V
All Outputs Low
Max
Units
150
10
mA
mA
0.8
V
V
0.4
V
V
V
10
mA
15
pF
400
550
650
4.0
3.7
3.4
kX
kX
kX
kX
kX
kX
VDIS a 4
V
Input Logic Levels
DATA IN, CLOCK
ENABLE, BLANK
VIL
VIH
Logic ‘0’
Logic ‘1’
(Note 1)
VOL
VOH
VOH
Data Output Logic Levels
Logic ‘0’
Logic ‘1’
Logic ‘1’
IOUT e 400 mA
IOUT e b10 mA
IOUT e b500 mA
IIN
CIN
Input Currents
DATA IN, CLOCK
ENABLE, BLANK
2.4
VDD b 0.5
2.8
VIN e 0V or VDD
b 10
Input Capacitance
DATA IN, CLOCK
ENABLE, BLANK
Display Output Impedances
VDD e 5.5V, VSS e 0V
ROFF
Output Off (Figure 3a)
RON
Output On (Figure 3b)
VDIS
VDIS
VDIS
VDIS
VDIS
VDIS
VDOL
Display Output Low Voltage
Note 1: 74LSTTL VOH e 2.7V
@
e
e
e
e
e
e
b 25V
b 40V
b 55V
b 25V
b 40V
b 55V
60
70
80
3.0
2.6
2.3
VDD e 5.5V, IOUT e Open Circuit,
b 55V s VDIS s b 25V
IOUT e b 400 mA, TTL VOH e 2.4V
@
IOUT e b 400 mA.
2
VDIS
AC Electrical Characteristics TA e b40§ C to a 85§ C, VDD e 5V g 0.5V
Symbol
Parameter
Conditions
Min
Typ
Max
Units
800
300
300
kHz
ns
ns
fC
tH
tL
Clock Input
Frequency
High Time
Low Time
(Notes 3 and 4)
tDS
tDH
Data Input
Set-Up Time
Hold Time
100
100
ns
ns
tES
tEH
Enable Input
Set-Up Time
Hold Time
100
100
ns
ns
tCDO
Data Output
CLOCK Low to Data Out
Time
CL e 50 pF
500
ns
Note 2: For timing purposes, the signals ENABLE and BLANK can be considered to be totally independent of each other.
Note 3: AC input waveform specification for test purposes: tr, tf s 20 ns, f e 800 kHz, 50% g 10% duty cycle.
Note 4: Clock input rise and fall times must not exceed 5 ms.
Connection Diagrams
Plastic Chip Carrier
Dual-In-Line Package
TL/F/5600 – 2
Top View
TL/F/5600 – 8
FIGURE 2
Top View
Order Number MM58241N or MM58241V
See NS Package Number N40A or V44A
Functional Description
to be loaded into the shift register following ENABLE high. A
logic ‘1’ at the input will turn on the corresponding display
digit/segment/dot output.
A significant reduction in discrete board components can be
achieved by use of the MM58241, because external pulldown resistors are not required. Due to the nature of the
output stage, both its on and off impedance values vary as a
function of the display voltage applied. However, Figures 3a
and 3b show that this output impedance will remain constant for a fixed value of display voltage.
This product is specifically designed to drive multiplexed or
non-multiplexed high voltage alphanumeric or dot matrix
vacuum fluorescent (VF) displays. Character generation is
done externally in the microprocessor, with a serial data
path to the display driver. The MM58421 uses three signals,
DATA IN, CLOCK and ENABLE, where ENABLE acts as an
external load signal. Display blanking can be achieved by
means of the BLANKING CONTROL input, and a logic ‘1’
will turn off all sections of the display. A block diagram of
the MM58241 is shown in Figure 1.
Figure 2 shows the pinout of the MM58241 device, where
output 1 (pin 18) is equivalent to bit 1, i.e., the first bit of data
3
Functional Description (Continued)
Figure 4 demonstrates the critical timing requirements between CLOCK and DATA IN for the MM58241.
To clear (reset) the display driver at power on or any time,
the following flushing routine may be used. With the enable
signal high, clock in 32 zeroes. Drive the enable signal low
and the display will be blank. It is recommended to clear the
driver at power on.
In Figure 5, the ENABLE signal acts as an envelope, and
only while this signal is at a logic ‘1’ does the circuit accept
CLOCK input signals. Data is transferred and shifted in the
internal shift register on the rising clock edge, i.e., ‘0’–‘1’
transition. When the ENABLE signal goes low, the contents
of the shift registers are latched, and the display will show
new data. During data transfer, the display will show old
data. DATA OUT is also provided on the MM58241, being
output on the falling edge. At any time, the display may be
blanked under processor control, using the BLANKING
CONTROL input.
Figure 6 shows a schematic diagram of a microprocessorbased system where the MM58241 is used to provide the
grid drive for a 32-digit 5 x 7 dot matrix vaccum fluorescent
(VF) display. The anode drive in this example is provided by
another member of the high voltage display driver family,
namely the MM58248, which does not require an externally
generated load signal.
TL/F/5600 – 3
FIGURE 3a. Output Impedance Off
TL/F/5600 – 4
FIGURE 3b. Output Impedance On
Timing Diagrams
For the purposes of AC measurements, VIH e 2.4V, VIL e 0.8V.
FIGURE 4. Clock and Data Timings
4
TL/F/5600 – 5
Timing Diagrams (Continued)
TL/F/5600 – 6
FIGURE 5. MM58241 Timings (Data Format)
Typical Application
TL/F/5600 – 7
FIGURE 6. Microprocessor-Controlled Word Processor
5
6
Physical Dimensions inches (millimeters)
Molded Dual-In-Line Package
Order Number MM58241N
NS Package Number N40A
7
MM58241 High Voltage Display Driver
Physical Dimensions inches (millimeters) (Continued)
Plastic Chip Carrier (V)
Order Number MM58241V
NS Package Number V44A
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