Philips N74F193D, N74F193N Datasheet

74F193
Up/down binary counter with separate up/down clocks
Product specification IC15 Data Handbook
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1995 Jul 17
Philips Semiconductors Product specification
74F193Up/down binary counter with separate up/down clocks
FEA TURES
Synchronous reversible 4-bit counting
Asynchronous parallel load capability
Asynchronous reset (clear)
Cascadable without external logic
DESCRIPTION
The 74F193 is a 4-bit synchronous up/down counter in the binary mode. Separate up/down clocks, CP simplify operation. The outputs change state synchronously with the Low-to-High transition of either clock input. If the CP pulsed while CP is pulsed while CP
is held High, the device will count up. If CPD clock
D
is held High, the device will count down. The
U
device can be cleared at any time by the asynchronous reset pin. It may also be loaded in parallel by activating the asynchronous parallel load pin.
Inside the device are four master-slave JK flip-flops with the necessary steering logic to provide the asynchronous reset, asynchronous preset, load, and synchronous count up and count down functions.
Each flip-flop contains JK feedback from slave to master, such that a Low-to-High transition on the CP one, while a similar transition on the CP count by one.
One clock should be held High while counting with the other, because the circuit will either count by twos or not at all, depending on the state of the first JK flip-flop, which cannot toggle as long as either clock input is Low. Applications requiring reversible operation must make the reversing decision while the activating clock is High to avoid erroneous counts.
The Terminal Count Up (TC
) and Terminal Count Down (TCD)
U
outputs are normally High. When the circuit has reached the maximum count state of 15, the next High-to-Low transition of CP will cause TCU to go Low. TCU will stay Low until CPU goes High again, duplicating the count up clock, although delayed by two gate delays. Likewise, the TC the zero state and the CP
output will go Low when the circuit is in
D
goes Low. The TC outputs can be used
D
as the clock input signals to the next higher order circuit in a multistage counter, since they duplicate the clock waveforms.
and CPD respectively,
U
clock is
U
input will decrease the count by
D
input will advance the
U
U
Multistage counters will not be fully synchronous since there is a two-gate delay time difference added for each stage that is added.
The counter may be preset by the asynchronous parallel load capability of the circuit. Information present on the parallel Data inputs (D0 - D3) is loaded into the counter and appears on the outputs regardless of the conditions of the clock inputs when the Parallel Load (PL
) input is Low. A High level on the Master Reset (MR) input will disable the parallel load gates, override both clock inputs, and set all Q outputs Low. If one of the clock inputs is Low during and after a reset or load operation, the next Low-to-High transition of the clock will be interpreted as a legitimate signal and will be counted.
TYPICAL
TYPE
TYPICAL f
MAX
SUPPLY CURRENT
(TOTAL)
74F193 125MHz 32mA
ORDERING INFORMATION
COMMERCIAL RANGE
DESCRIPTION
VCC = 5V ±10%,
T
= 0°C to +70°C
amb
PKG DWG #
16-pin plastic DIP N74F193N SOT38-4
16-pin plastic SO N74F193D SOT109-1
PIN CONFIGURATION
16
V
CC
D0
15
MR
14 13
TC
D
12
TC
U
PL
11
D2
10
D3
98
SF00745
Q1
Q0 CP CP
Q2
Q3 GND
1D1 2 3 4
D
5
U
6 7
INPUT AND OUTPUT LOADING AND FAN-OUT TABLE
PINS DESCRIPTION
74F(U.L.)
HIGH/LOW
D0 - D3 Data inputs 1.0/1.0 20µA/0.6mA CP CP
U D
Count up clock input (active rising edge) 1.0/3.0 20µA/1.8mA
Count down clock input (active rising edge) 1.0/3.0 20µA/1.8mA PL Asynchronous parallel load control input (active Low) 1.0/1.0 20µA/0.6mA MR Asynchronous master reset input 1.0/1.0 20µA/0.6mA Q0 - Q3 Flip-flop outputs 50/33 1.0mA/20mA TC TC
U D
Terminal count up (carry) output (active Low) 50/33 1.0mA/20mA
Terminal count down (borrow) output (active Low) 50/33 1.0mA/20mA
NOTE: One (1.0) FAST Unit Load (U.L.) is defined as: 20µA in the High state and 0.6mA in the Low state.
1995 Jul 17
2
LOAD VALUE
HIGH/LOW
853-0353 15459
Philips Semiconductors Product specification
74F193Up/down binary counter with separate up/down clocks
LOGIC SYMBOL
11
5 4
14
VCC = Pin 16 GND = Pin 8
STATE DIAGRAM
01234
15
14
15 1 10 9
D0 D1Q1D2
PL CP
U
CP
D
MR
Q0
D3
Q2 Q3
LOGIC SYMBOL (IEEE/IEC)
11
5
4
U
D
SF00746
12
13
5
6
14
15 1 10
9
TC
TC
7623
C3
G1
G2
R
2+
1–
3D
CTR DIV 16
[1] [2] [4] [8]
CT=15
1
2CT=0
12
13
3 2
6 7
SF00747
13
COUNT UP COUNT DOWN
TCU = Q0 . Q1 . Q2 . Q3 . CP TCD = Q0 . Q1 . Q2 . Q3 . CP
Logic Equations for Terminal Count
7
89101112
U D
SF00748
1995 Jul 17
3
Philips Semiconductors Product specification
74F193Up/down binary counter with separate up/down clocks
LOGIC DIAGRAM
CP
CP
D0 D1 D3
11
PL
5
U
4
D
15 1
KJ
CP
S
R
D
D
Q
Q
J
CP
S
R
D
D
Q
Q
D2
10
KJ
CP
S
R
D
D
Q
Q
9
12
TC
U
13
TC
D
K
JQCP
S
R
D
D
Q
14
MR
V
= Pin 16
CC
GND = Pin 8
23
Q1Q0
Q1
6
7
Q1
FUNCTION TABLE
INPUTS OUTPUTS OPERATING
MR PL CPUCP
H X X L X X X X L L L L H L Reset (clear) H X X H X X X X L LLLHH
L L X L L L L L L L L L H L L L X H L L L L L LLLHH Parallel load L L L X H H H H H HHHLH L L H X H H H H H HHHHH
L H H X X X X Count up H L H H X X X X Count down H H2Count down
H = High voltage level L = Low voltage level X = Don’t care = Low-to-High clock transition
D0 D1 D2 D3 Q0 Q1 Q2 Q3 TCUTC
D
NOTES:
TC
=CPU at terminal count up (HHHH)
U
=CPD at terminal count down (LLLL)
TC
D
1
D
H Count up
SF00749
MODE
1995 Jul 17
4
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