NSC 74C923

MM54C922/MM74C922 16-Key Encoder
MM54C923/MM74C923 20-Key Encoder
General Description
These CMOS key encoders provide all the necessary logic
to fully encode an array of SPST switches. The keyboard
scan can be implemented by either an external clock or
external capacitor. These encoders also have on-chip pullup devices which permit switches with up to 50 kX on resistance to be used. No diodes in the switch array are needed
to eliminate ghost switches. The internal debounce circuit
needs only a single external capacitor and can be defeated
by omitting the capacitor. A Data Available output goes to a
high level when a valid keyboard entry has been made. The
Data Available output returns to a low level when the entered key is released, even if another key is depressed. The
Data Available will return high to indicate acceptance of the
new key after a normal debounce period; this two-key rollover is provided between any two switches.
An internal register remembers the last key pressed even
after the key is released. The TRI-STATEÉ outputs provide
for easy expansion and bus operation and are LPTTL compatible.
Features
Y
Y
Y
Y
Y
Y
Y
Y
Y
50 kX maximum switch on resistance
On or off chip clock
On-chip row pull-up devices
2 key roll-over
Keybounce elimination with single capacitor
Last key register at outputs
TRI-STATE outpust LPTTL compatible
Wide supply range
Low power consumption
3V to 15V
Connection Diagrams
Pin Assignment
for SOIC
Pin Assignment for
Dual-In-Line Package
Pin Assignment for
DIP and SOIC Package
TL/F/6037 – 14
Top View
TL/F/6037–1
Order Number MM74C922
Top View
TL/F/6037 – 2
Order Number MM54C922 or
MM74C922
Top View
Order Number MM54C923 or
MM74C923
TRI-STATEÉ is a registered trademark of National Semiconductor Corporation.
C1995 National Semiconductor Corporation
TL/F/6037
RRD-B30M105/Printed in U. S. A.
MM54C922/MM74C922 16-Key Encoder, MM54C923/MM74C923 20-Key Encoder
July 1993
Absolute Maximum Ratings (Note 1)
Voltage at Any Pin
VCC b 0.3V to VCC a 0.3V
Operating Temperature Range
MM54C922, MM54C923
MM74C922, MM74C923
b 65§ C to a 150§ C
Storage Temperature Range
Power Dissipation (PD)
Dual-In-Line
Small Outline
Operating VCC Range
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
b 55§ C to a 125§ C
b 40§ C to a 85§ C
700 mW
500 mW
3V to 15V
18V
VCC
Lead Temperature
(Soldering, 10 seconds)
260§ C
DC Electrical Characteristics Min/Max limits apply across temperature range unless otherwise specified
Symbol
Parameter
Conditions
Min
Typ
Max
Units
VT a
Positive-Going Threshold Voltage
at Osc and KBM Inputs
VCC e 5V, IIN t 0.7 mA
VCC e 10V, IIN t 1.4 mA
VCC e 15V, IIN t 2.1 mA
3.0
6.0
9.0
3.6
6.8
10
4.3
8.6
12.9
V
V
V
VTb
Negative-Going Threshold Voltage
at Osc and KBM Inputs
VCC e 5V, IIN t 0.7 mA
VCC e 10V, IIN t 1.4 mA
VCC e 15V, IIN t 2.1 mA
0.7
1.4
2.1
1.4
3.2
5
2.0
4.0
6.0
V
V
V
VIN(1)
Logical ‘‘1’’ Input Voltage,
Except Osc and KBM Inputs
VCC e 5V
VCC e 10V
VCC e 15V
3.5
8.0
12.5
4.5
9
13.5
VIN(0)
Logical ‘‘0’’ Input Voltage,
Except Osc and KBM Inputs
VCC e 5V
VCC e 10V
VCC e 15V
Irp
Row Pull-Up Current at Y1, Y2,
Y3, Y4 and Y5 Inputs
VCC e 5V, VIN e 0.1 VCC
VCC e 10V
VCC e 15V
VOUT(1)
Logical ‘‘1’’ Output Voltage
VCC e 5V, IO e b10 mA
VCC e 10V, IO e b10 mA
VCC e 15V, IO e b10 mA
VOUT(0)
Logical ‘‘0’’ Output Voltage
VCC e 5V, IO e 10 mA
VCC e 10V, IO e 10 mA
VCC e 15V, IO e 10 mA
Ron
Column ‘‘ON’’ Resistance at
X1, X2, X3 and X4 Outputs
VCC e 5V, VO e 0.5V
VCC e 10V, VO e 1V
VCC e 15V, VO e 1.5V
ICC
Supply Current
Osc at 0V, (one Y low)
IIN(1)
IIN(0)
CMOS TO CMOS
V
V
V
0.5
1
1.5
1.5
2
2.5
V
V
V
b2
b 10
b 22
b5
b 20
b 45
mA
mA
mA
4.5
9
13.5
V
V
V
0.5
1
1.5
V
V
V
500
300
200
1400
700
500
X
X
X
VCC e 5V
VCC e 10V
VCC e 15V
0.55
1.1
1.7
1.1
1.9
2.6
mA
mA
mA
Logical ‘‘1’’ Input Current
at Output Enable
VCC e 15V, VIN e 15V
0.005
1.0
mA
Logical ‘‘0’’ Input Current
at Output Enable
VCC e 15V, VIN e 0V
b 1.0
b 0.005
mA
CMOS/LPTTL INTERFACE
VIN(1)
Logical ‘‘1’’ Input Voltage,
Except Osc and KBM Inputs
54C, VCC e 4.5V
74C, VCC e 4.75V
VIN(0)
Logical ‘‘0’’ Input Voltage,
Except Osc and KBM Inputs
54C, VCC e 4.5V
74C, VCC e 4.75V
VOUT(1)
Logical ‘‘1’’ Output Voltage
54C, VCC e 4.5V
IO e b360 mA
74C, VCC e 4.75V
IO e b360 mA
VOUT(0)
Logical ‘‘0’’ Output Voltage
54C, VCC e 4.5V
IO e b360 mA
74C, VCC e 4.75V
IO e b360 mA
VCC b 1.5
VCC b 1.5
V
V
0.8
0.8
V
V
2.4
V
2.4
V
0.4
V
0.4
V
Note 1: ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed. Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits. The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation.
2
DC Electrical Characteristics
Min/Max limits apply across temperature range unless otherwise specified (Continued)
Symbol
Parameter
Conditions
Min
Typ
Max
Units
OUTPUT DRIVE (See 54C/74C Family Characteristics Data Sheet) (Short Circuit Current)
ISOURCE
Output Source Current
(P-Channel)
VCC e 5V, VOUT e 0V,
TA e 25§ C
ISOURCE
Output Source Current
(P-Channel)
ISINK
ISINK
b 1.75
b 3.3
mA
VCC e 10V, VOUT e 0V,
TA e 25§ C
b8
b 15
mA
Output Sink Current
(N-Channel)
VCC e 5V, VOUT e VCC,
TA e 25§ C
1.75
3.6
mA
Output Sink Current
(N-Channel)
VCC e 10V, VOUT e VCC,
TA e 25§ C
8
16
mA
AC Electrical Characteristics* TA e 25§ C, CL e 50 pF, unless otherwise noted
Symbol
Typ
Max
Units
Propagation Delay Time to
Logical ‘‘0’’ or Logical ‘‘1’’
from D.A.
CL e 50 pF (Figure 1)
VCC e 5V
VCC e 10V
VCC e 15V
60
35
25
150
80
60
ns
ns
ns
Propagation Delay Time from
Logical ‘‘0’’ or Logical ‘‘1’’
into High Impedance State
RL e 10k, CL e 10 pF (Figure 2)
VCC e 5V, RL e 10k
VCC e 10V, CL e 10 pF
VCC e 15V
80
65
50
200
150
110
ns
ns
ns
Propagation Delay Time from
High Impedance State to a
Logical ‘‘0’’ or Logical ‘‘1’’
RL e 10k, CL e 50 pF (Figure 2)
VCC e 5V, RL e 10k
VCC e 10V, CL e 50 pF
VCC e 15V
100
55
40
250
125
90
ns
ns
ns
CIN
Input Capacitance
Any Input (Note 2)
5
7.5
pF
COUT
TRI-STATE Output Capacitance
Any Output (Note 2)
10
tpd0, tpd1
t0H, t1H
tH0, tH1
Parameter
Conditions
Min
pF
*AC Parameters are guaranteed by DC correlated testing.
Note 1: ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed. Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits. The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation.
Note 2: Capacitance is guaranteed by periodic testing.
Switching Time Waveforms
TL/F/6037 – 4
TL/F/6037 – 3
T1 & T2 & RC, T3 & 0.7 RC, where R & 10k and C is external capacitor at KBM input.
FIGURE 1
3
FIGURE 2
Block Diagram
TL/F/6037 – 5
Truth Table
Switch
Position
D
A
T
A
O
U
T
A
B
C
D
E*
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Y1,X1 Y1,X2 Y1,X3 Y1,X4 Y2,X1 Y2,X2 Y2,X3 Y2,X4 Y3,X1 Y3,X2 Y3,X3 Y3,X4 Y4,X1 Y4,X2 Y4,X3 Y4,X4 Y5*,X1 Y5*,X2 Y5*,X3 Y5*,X4
0
0
0
0
0
1
0
0
0
0
0
1
0
0
0
1
1
0
0
0
0
0
1
0
0
1
0
1
0
0
0
1
1
0
0
1
1
1
0
0
0
0
0
1
0
1
0
0
1
0
*Omit for MM54C922/MM74C922
4
0
1
0
1
0
1
1
0
1
0
0
0
1
1
0
1
0
1
1
0
0
1
1
1
0
1
1
1
1
0
0
0
0
0
1
1
0
0
0
1
0
1
0
0
1
1
1
0
0
1
Typical Performance Characteristics
Typical Irp vs VIN at
Any Y Input
Typical Ron vs VOUT at
Any X Output
TL/F/6037 – 6
TL/F/6037 – 7
Typical Debounce Period
vs CKBM
Typical FSCAN vs COSC
TL/F/6037 – 9
TL/F/6037 – 8
Typical Applications
Synchronous Handshake (MM74C922)
Synchronous Data Entry Onto Bus (MM74C922)
TL/F/6037 – 10
TL/F/6037 – 11
Outputs are enabled when valid entry is made and
go into TRI-STATE when key is released.
Note 3: The keyboard may be synchronously scanned by omitting the capacitor at osc. and driving osc. directly if the system clock rate is lower than 10 kHz.
5
Typical Applications (Continued)
Asynchronous Data Entry Onto Bus (MM74C922)
TL/F/6037 – 12
Outputs are in TRI-STATE until key is pressed, then data is placed on bus.
When key is released, outputs return to TRI-STATE.
Expansion to 32 Key Encoder (MM74C922)
TL/F/6037 – 13
Theory of Operation
low also initiates the key bounce circuit timing and locks out
the other Y inputs. The key code to be output is a combination of the frozen counter value and the decoded Y inputs.
Once the key bounce circuit times out, the data is latched,
and the Data Available (DAV) output goes high.
If, during the key closure the switch bounces, Y1 input will
go high again, restarting the scan and resetting the key
bounce circuitry. The key may bounce several times, but as
soon as the switch stays low for a debounce period, the
closure is assumed valid and the data is latched.
A key may also bounce when it is released. To ensure that
the encoder does not recognize this bounce as another key
closure, the debounce circuit must time out before another
closure is recognized.
The two-key roll-over feature can be illustrated by assuming
a key is depressed, and then a second key is depressed.
Since all scanning has stopped, and all other Y inputs are
disabled, the second key is not recognized until the first key
is lifted and the key bounce circuitry has reset.
The output latches feed TRI-STATE, which is enabled when
the Output Enable (OE) input is taken low.
The MM74C922/MM74C923 Keyboard Encoders implement all the logic necessary to interface a 16 or 20 SPST
key switch matrix to a digital system. The encoder will convert a key switch closer to a 4(MM74C922) or
5(MM74C923) bit nibble. The designer can control both the
keyboard scan rate and the key debounce period by altering
the oscillator capacitor, COSE, and the key bounce mask
capacitor, CMSK. Thus, the MM74C922/MM74C923’s performance can be optimized for many keyboards.
The keyboard encoders connect to a switch matrix that is 4
rows by 4 columns (MM74C922) or 5 rows by 4 columns
(MM74C923). When no keys are depressed, the row inputs
are pulled high by internal pull-ups and the column outputs
sequentially output a logic ‘‘0’’. These outputs are open
drain and are therefore low for 25% of the time and otherwise off. The column scan rate is controlled by the oscillator
input, which consists of a Schmitt trigger oscillator, a 2-bit
counter, and a 2 – 4-bit decoder.
When a key is depressed, key 0, for example, nothing will
happen when the X1 input is off, since Y1 will remain high.
When the X1 column is scanned, X1 goes low and Y1 will go
low. This disables the counter and keeps X1 low. Y1 going
6
Physical Dimensions inches (millimeters)
Ceramic Dual-In-Line Package (J)
Order Number MM54C922J or MM74C922J
NS Package Number J18A
Ceramic Dual-In-Line Package (J)
Order Number MM54C923J or MM74C923J
NS Package Number J20A
7
Physical Dimensions inches (millimeters) (Continued)
Plastic Small Outline I.C. Package (M)
Order Number MM74C922M or MM74C923M
NS Package Number M20B
8
Physical Dimensions inches (millimeters) (Continued)
Plastic Dual-In-Line Package (N)
Order Number MM54C922N or MM74C922N
NS Package Number N18A
9
MM54C922/MM74C922 16-Key Encoder, MM54C923/MM74C923 20-Key Encoder
Physical Dimensions inches (millimeters) (Continued)
Plastic Dual-In-Line Package (N)
Order Number MM54C923N or MM74C923N
NS Package Number N20A
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