ONSEMI MC14553B_06

MC14553B
3−Digit BCD Counter
The MC14553B 3−digit BCD counter consists of 3 negative edge
triggered BCD counters that are cascaded synchronously. A quad latch
at the output of each counter permits storage of any given count. The
information is then time division multiplexed, providing one BCD
number or digit at a time. Digit select outputs provide display control.
All outputs are TTL compatible.
An on−chip oscillator provides the low−frequency scanning clock
which drives the multiplexer output selector.
This device is used in instrumentation counters, clock displays,
digital panel meters, and as a building block for general logic
applications.
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MARKING
DIAGRAMS
PDIP−16
P SUFFIX
CASE 648
Features
•
•
•
•
•
•
•
•
TTL Compatible Outputs
On−Chip Oscillator
Cascadable
Clock Disable Input
Pulse Shaping Permits Very Slow Rise Times on Input Clock
Output Latches
Master Reset
Pb−Free Packages are Available*
SO−16W
DW SUFFIX
CASE 751G
1
Unit
DC Supply Voltage Range
VDD
−0.5 to +18.0
V
Input or Output Voltage Range
(DC or Transient)
Vin,
Vout
−0.5 to VDD
+ 0.5
V
Input Current (DC or Transient) per Pin
Iin
±10
mA
Output Current (DC or Transient) per Pin
Iout
+20
mA
Power Dissipation, per Package (Note 1)
PD
500
mW
Ambient Temperature Range
TA
−55 to +125
°C
Storage Temperature Range
Tstg
−65 to +150
°C
Lead Temperature (8−Second Soldering)
TL
260
°C
Stresses exceeding Maximum Ratings may damage the device. Maximum
Ratings are stress ratings only. Functional operation above the Recommended
Operating Conditions is not implied. Extended exposure to stresses above the
Recommended Operating Conditions may affect device reliability.
1. Temperature Derating: Plastic “P and D/DW”
Packages: – 7.0 mW/_C From 65_C To 125_C
This device contains protection circuitry to guard against damage due to high
static voltages or electric fields. However, precautions must be taken to avoid
applications of any voltage higher than maximum rated voltages to this
high−impedance circuit. For proper operation, Vin and Vout should be constrained to
the range VSS v (Vin or Vout) v VDD.
Unused inputs must always be tied to an appropriate logic voltage level
(e.g., either VSS or VDD). Unused outputs must be left open.
*For additional information on our Pb−Free strategy and soldering details, please
download the ON Semiconductor Soldering and Mounting Techniques
Reference Manual, SOLDERRM/D.
1
MC14553B
AWLYYWW
1
Value
June, 2006 − Rev. 7
1
16
Symbol
© Semiconductor Components Industries, LLC, 2006
MC14553BCP
AWLYYWWG
1
A
WL
YY
WW
G
MAXIMUM RATINGS (Voltages Referenced to VSS)
Parameter
16
= Assembly Location
= Wafer Lot
= Year
= Work Week
= Pb−Free Package
4
CIA
3
CIB Q0
9
Q1
7
Q2
6
Q3
O.F.
5
CLOCK
12
10
LE
11
DIS
13
MR
DS2
14
2
1
DS3
15
DS1
VDD = PIN 16
VSS = PIN 8
Figure 1. Block Diagram
ORDERING INFORMATION
Device
Package
Shipping
MC14553BCP
PDIP−16
25 Units / Rail
MC14553BCPG
PDIP−16
(Pb−Free)
25 Units / Rail
MC14553BDW
SOIC−16
47 Units / Rail
Publication Order Number:
MC14553B/D
MC14553B
TRUTH TABLE
Inputs
Master
Reset
Clock
0
0
0
0
0
0
0
0
1
Disable
LE
Outputs
0
0
1
0
0
X
0
0
X
No Change
Advance
No Change
Advance
No Change
No Change
Latched
Latched
Q0 = Q1 = Q2 = Q3 = 0
X
1
1
0
X
X
X
X
X
X
X
1
0
X = Don’t Care
ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ
ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ
ELECTRICAL CHARACTERISTICS (Voltages Referenced to VSS)
− 55_C
25_C
VDD
Symbol
Vdc
Min
Max
Min
Typ
(Note 2)
Max
Min
Max
Unit
“0” Level
VOL
5.0
10
15
−
−
−
0.05
0.05
0.05
−
−
−
0
0
0
0.05
0.05
0.05
−
−
−
0.05
0.05
0.05
Vdc
“1” Level
VOH
5.0
10
15
4.95
9.95
14.95
−
−
−
4.95
9.95
14.95
5.0
10
15
−
−
−
4.95
9.95
14.95
−
−
−
Vdc
“0” Level
VIL
5.0
10
15
−
−
−
1.5
3.0
4.0
−
−
−
2.25
4.50
6.75
1.5
3.0
4.0
−
−
−
1.5
3.0
4.0
5.0
10
15
3.5
7.0
11
−
−
−
3.5
7.0
11
2.75
5.50
8.25
−
−
−
3.5
7.0
11
−
−
−
Characteristic
Output Voltage
Vin = VDD or 0
Vin = 0 or VDD
Input Voltage
(VO = 4.5 or 0.5 Vdc)
(VO = 9.0 or 1.0 Vdc)
(VO = 13.5 or 1.5 Vdc)
125_C
“1” Level
Vdc
VIH
(VO = 0.5 or 4.5 Vdc)
(VO = 1.0 or 9.0 Vdc)
(VO = 1.5 or 13.5 Vdc)
Vdc
IOH
Output Drive Current
(VOH = 4.6 Vdc)
(VOH = 9.5 Vdc)
(VOH = 13.5 Vdc)
Source −
Pin 3
5.0
10
15
– 0.25
– 0.62
– 1.8
−
−
−
– 0.2
– 0.5
– 1.5
– 0.36
– 0.9
– 3.5
−
−
−
−0.14
−0.35
−1.1
−
−
−
(VOH = 4.6 Vdc)
(VOH = 9.5 Vdc)
(VOH = 13.5 Vdc)
Source −
Other
Outputs
5.0
10
15
– 0.64
– 1.6
– 4.2
−
−
−
– 0.51
– 1.3
– 3.4
– 0.88
– 2.25
– 8.8
−
−
−
– 0.36
– 0.9
– 2.4
−
−
−
mAdc
5.0
10
15
0.5
1.1
1.8
−
−
−
0.4
0.9
1.5
0.88
2.25
8.8
−
−
−
0.28
0.65
1.20
−
−
−
mAdc
5.0
10
15
3.0
6.0
18
−
−
−
2.5
5.0
15
4.0
8.0
20
−
−
−
1.6
3.5
10
−
−
−
mAdc
(VOL = 0.4 Vdc)
(VOL = 0.5 Vdc)
(VOL = 1.5 Vdc)
Sink −
Pin 3
(VOL = 0.4 Vdc)
(VOL = 0.5 Vdc)
(VOL = 1.5 Vdc)
Sink − Other
Outputs
IOL
mAdc
Input Current
Iin
15
−
± 0.1
−
±0.00001
± 0.1
−
± 1.0
mAdc
Input Capacitance (Vin = 0)
Cin
−
−
−
−
5.0
7.5
−
−
pF
Quiescent Current (Per Package)
MR = VDD
IDD
5.0
10
15
−
−
−
5.0
10
20
−
−
−
0.010
0.020
0.030
5.0
10
20
−
−
−
150
300
600
mAdc
IT
5.0
10
15
Total Supply Current (Note 3, 4)
(Dynamic plus Quiescent, Per Package)
(CL = 50 pF on all outputs, all buffers switching)
IT = (0.35 mA/kHz) f + IDD
IT = (0.85 mA/kHz) f + IDD
IT = (1.50 mA/kHz) f + IDD
mAdc
2. Data labelled “Typ” is not to be used for design purposes but is intended as an indication of the IC’s potential performance.
3. The formulas given are for the typical characteristics only at 25_C.
4. To calculate total supply current at loads other than 50 pF: IT(CL) = IT(50 pF) + (CL – 50) Vfk where: IT is in mA (per package), CL in pF,
V = (VDD – VSS) in volts, f in kHz is input frequency, and k = 0.004.
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2
MC14553B
ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ
ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ
SWITCHING CHARACTERISTICS (Note 5) (CL = 50 pF, TA = 25_C)
VDD
Min
Typ
(Note 6)
Max
5.0
10
15
−
−
−
100
50
40
200
100
80
tPLH,
tPHL
5.0
10
15
−
−
−
900
500
200
1800
1000
400
ns
2a
tPHL
5.0
10
15
−
−
−
600
400
200
1200
800
400
ns
Reset to BCD Out
2b
tPHL
5.0
10
15
−
−
−
900
500
300
1800
1000
600
ns
Clock to Latch Enable Setup Time
Master Reset to Latch Enable Setup Time
2b
tsu
5.0
10
15
600
400
200
300
200
100
−
−
−
ns
Removal Time
Latch Enable to Clock
2b
trem
5.0
10
15
– 80
– 10
0
– 200
– 70
– 50
−
−
−
ns
Clock Pulse Width
2a
tWH(cl)
5.0
10
15
550
200
150
275
100
75
−
−
−
ns
Reset Pulse Width
2b
tWH(R)
5.0
10
15
1200
600
450
600
300
225
−
−
−
ns
Reset Removal Time
−
trem
5.0
10
15
– 80
0
20
– 180
– 50
– 30
−
−
−
ns
Input Clock Frequency
2a
fcl
5.0
10
15
−
−
−
1.5
5.0
7.0
0.9
2.5
3.5
MHz
Input Clock Rise Time
2b
tTLH
5.0
10
15
Disable, MR, Latch Enable
Rise and Fall Times
−
tTLH,
tTHL
5.0
10
15
−
−
−
−
−
−
15
5.0
4.0
ms
Scan Oscillator Frequency
(C1 measured in mF)
1
fosc
5.0
10
15
−
−
−
1.5/C1
4.2/C1
7.0/C1
−
−
−
Hz
Figure
Symbol
Output Rise and Fall Time
tTLH, tTHL = (1.5 ns/pF) CL + 25 ns
tTLH, tTHL = (0.75 ns/pF) CL + 12.5 ns
tTLH, tTHL = (0.55 ns/pF) CL + 9.5 ns
2a
tTLH,
tTHL
Clock to BCD Out
2a
Clock to Overflow
Characteristic
ns
No
Limit
ns
5. The formulas given are for the typical characteristics only at 25_C.
6. Data labelled “Typ” is not to be used for design purposes but is intended as an indication of the IC’s potential performance.
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3
Unit
899
900
901
990
991
992
993
994
995
996
997
998
999
1000
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
MC14553B
UNITS CLOCK
UNITS Q0
UNITS Q1
UNITS Q2
UNITS Q3
TENS CLOCK
TENS Q0
TENS Q3
HUNDREDS
CLOCK
UP AT 980
UP AT 80
HUNDREDS Q0
HUNDREDS Q3
DISABLE
UP AT 800
(DISABLES CLOCK WHEN HIGH)
OVERFLOW
MASTER
RESET
SCAN
OSCILLATOR
DIGIT SELECT 1
UNITS
TENS
DIGIT SELECT 2
DIGIT SELECT 3
HUNDREDS
Figure 2. 3−Digit Counter Timing Diagram (Reference Figure 4)
VDD
Q3
Q2
Q1
Q0
O.F.
DS1
DS2
DS3
C
LE
DIS
MR
8
20 ns
CL
CL
CL
CL
BCD OUT
CL
20 ns
90%
CLOCK
10%
tPLH
tWL(cl)
1000
16
999
(a)
PULSE
GENERATOR
50%
10%
tTLH
90%
1/fcl
tPHL
50%
tTHL
tPHL
50%
OVERFLOW
VSS
tTLH
(b)
GENERATOR
1
CLOCK
VDD
C
GENERATOR
2
LE
GENERATOR
3
MR
DIS
Q3
Q2
Q1
Q0
O.F.
DS1
DS2
DS3
50%
90%
10%
tsu
trem
CL
LATCH
ENABLE
CL
CL
50%
tPHL, tPLH
CL
CL
BCD OUT
tsu
50%
tPHL
VSS
50%
MASTER RESET
Figure 3. Switching Time Test Circuits and Waveforms
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4
tWH(R)
MC14553B
OPERATING CHARACTERISTICS
The MC14553B three−digit counter, shown in Figure 4,
consists of three negative edge−triggered BCD counters
which are cascaded in a synchronous fashion. A quad latch
at the output of each of the three BCD counters permits
storage of any given count. The three sets of BCD outputs
(active high), after going through the latches, are time
division multiplexed, providing one BCD number or digit at
a time. Digit select outputs (active low) are provided for
display control. All outputs are TTL compatible.
An on−chip oscillator provides the low frequency
scanning clock which drives the multiplexer output selector.
The frequency of the oscillator can be controlled externally
by a capacitor between pins 3 and 4, or it can be overridden
and driven with an external clock at pin 4. Multiple devices
can be cascaded using the overflow output, which provides
one pulse for every 1000 counts.
The Master Reset input, when taken high, initializes the
three BCD counters and the multiplexer scanning circuit.
While Master Reset is high the digit scanner is set to digit
one; but all three−digit select outputs are disabled to prolong
display life, and the scan oscillator is inhibited. The Disable
input, when high, prevents the input clock from reaching the
counters, while still retaining the last count. A pulse shaping
circuit at the clock input permits the counters to continue
operating on input pulses with very slow rise times.
Information present in the counters when the latch input
goes high, will be stored in the latches and will be retained
while the latch input is high, independent of other inputs.
Information can be recovered from the latches after the
counters have been reset if Latch Enable remains high
during the entire reset cycle.
C1A
4
SCAN
R
OSCILLATOR 3
C1B
LATCH ENABLE
10
CLOCK
12
PULSE
SHAPER
C1
PULSE
GENERATOR
R SCANNER
Q0
Q1
Q2
R ÷ 10
Q3
UNITS
C
QUAD
LATCH
9
11
DISABLE
(ACTIVE
HIGH)
MULTIPLEXER
7
Q0
C
Q1
Q2
R ÷ 10
Q3
TENS
Q1
QUAD
LATCH
BCD
OUTPUTS
(ACTIVE
HIGH)
6
Q0
Q1
Q2
R
÷ 10 Q3
HUNDREDS
C
13
MR
(ACTIVE HIGH)
Q0
5
QUAD
LATCH
2
1
15
DS1 DS2 DS3
(LSD) DIGIT SELECT (MSD)
(ACTIVE LOW)
14
OVERFLOW
Figure 4. Expanded Block Diagram
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5
Q2
Q3
CLOCK
INPUT
VDD
STROBE
RESET
11
12
MC14553B
13
MR
C1B
C1A
Figure 5. Six−Digit Display
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6
LSD
9
5
a
A
3
B
b 10
11
2
C
c
12
4
D MC14543B d
13
6
Ph
e
15
1
f
LD
14
7
BI
g
O.F.
Q3 Q2 Q1 Q0 DS3 DS2 DS1
5
6
7
9 15
1 2
DIS
CLK
10
LE
14
3
4
0.001
μF
MC14553B
MR
13
C1 B
C1 A
DISPLAYS ARE LOW CURRENT LEDs
(I peak < 10 mA PER SEGMENT)
VDD
B
C
A
a
14
4
3
9
10
2
MSD
b
11
c
12
4
D MC14543B d
6
13
Ph
e
1
15
LD
f
7
g 14
BI
3
5
O.F.
Q3 Q2 Q1 Q0 DS3 DS2 DS1
5
6
7
9 15
1
2
DIS
CLK
VDD
11
12
LE
10
MC14553B
MC14553B
PACKAGE DIMENSIONS
PDIP−16
CASE 648−08
ISSUE T
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
3. DIMENSION L TO CENTER OF LEADS
WHEN FORMED PARALLEL.
4. DIMENSION B DOES NOT INCLUDE
MOLD FLASH.
5. ROUNDED CORNERS OPTIONAL.
−A−
16
9
1
8
B
F
C
L
S
−T−
SEATING
PLANE
K
H
D
M
J
G
16 PL
0.25 (0.010)
M
T A
M
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7
DIM
A
B
C
D
F
G
H
J
K
L
M
S
INCHES
MIN
MAX
0.740 0.770
0.250 0.270
0.145 0.175
0.015 0.021
0.040
0.70
0.100 BSC
0.050 BSC
0.008 0.015
0.110 0.130
0.295 0.305
0_
10 _
0.020 0.040
MILLIMETERS
MIN
MAX
18.80 19.55
6.35
6.85
3.69
4.44
0.39
0.53
1.02
1.77
2.54 BSC
1.27 BSC
0.21
0.38
2.80
3.30
7.50
7.74
0_
10 _
0.51
1.01
MC14553B
PACKAGE DIMENSIONS
SO−16 WB
CASE 751G−03
ISSUE C
A
D
9
1
8
h X 45 _
E
0.25
H
8X
M
B
M
16
q
16X
M
14X
e
B
B
T A
MILLIMETERS
DIM MIN
MAX
A
2.35
2.65
A1 0.10
0.25
B
0.35
0.49
C
0.23
0.32
D 10.15 10.45
E
7.40
7.60
e
1.27 BSC
H 10.05 10.55
h
0.25
0.75
L
0.50
0.90
q
0_
7_
S
B
S
A1
L
A
0.25
NOTES:
1. DIMENSIONS ARE IN MILLIMETERS.
2. INTERPRET DIMENSIONS AND TOLERANCES
PER ASME Y14.5M, 1994.
3. DIMENSIONS D AND E DO NOT INLCUDE
MOLD PROTRUSION.
4. MAXIMUM MOLD PROTRUSION 0.15 PER SIDE.
5. DIMENSION B DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.13 TOTAL IN
EXCESS OF THE B DIMENSION AT MAXIMUM
MATERIAL CONDITION.
SEATING
PLANE
T
C
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
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associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
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MC14553B/D