MC10H131(2016) 查看數據表(PDF) - ON Semiconductor
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MC10H131 Datasheet PDF : 5 Pages
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MC10H131
Table 4. ELECTRICAL CHARACTERISTICS (VEE = −5.2 V ±5%) (Note 1)
0°
25°
75°
Symbol
Characteristic
Min
Max
Min
Max
Min
Max
Unit
IE
Power Supply Current
IinH
Input Current High
Pins 6, 11
Pin 9
Pins 7, 10
Pins 4, 5, 12, 13
−
62
−
56
−
−
530
−
310
−
−
660
−
390
−
−
485
−
285
−
−
790
−
465
−
62
mA
mA
310
390
285
465
IinL
Input Current Low
VOH
High Output Voltage
VOL
Low Output Voltage
VIH
High Input Voltage
VIL
Low Input Voltage
0.5
−
0.5
−
0.3
−
mA
−1.02
−0.84
−0.98
−0.81
−0.92
−0.735
Vdc
−1.95
−1.63
−1.95
−1.63
−1.95
−1.60
Vdc
−1.17
−0.84
−1.13
−0.81
−1.07
−0.735
Vdc
−1.95
−1.48
−1.95
−1.48
−1.95
−1.45
Vdc
1. Each MECL 10H series circuit has been designed to meet the dc specifications shown in the test table, after thermal equilibrium has been
established. The circuit is in a test socket or mounted on a printed circuit board and transverse air flow greater than 500 lfpm is maintained.
Outputs are terminated through a 50 W resistor to −2.0 V.
Table 5. AC CHARACTERISTICS
0°
25°
75°
Symbol
Characteristic
Min
Max
Min
Max
Min
Max
Unit
tpd
Propagation Delay
Clock, CE
Set, Reset
ns
0.8
1.6
0.8
1.7
0.8
1.8
0.6
1.6
0.7
1.7
0.7
1.8
tr
Rise Time
tf
Fall Time
tset
Set-up Time
thold
Hold Time
ftog
Toggle Frequency
0.6
2.0
0.6
2.0
0.6
0.6
2.0
0.6
2.0
0.6
0.7
−
0.7
−
0.7
0.8
−
0.8
−
0.8
250
−
250
−
250
2.2
ns
2.2
ns
−
ns
−
ns
−
MHz
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
APPLICATION INFORMATION
The MC10H131 is a dual master-slave type D flip-flop.
Asynchronous Set (S) and Reset (R) override Clock (CC)
and Clock Enable (CE) inputs. Each flip-flop may be
clocked separately by holding the common clock in the new
low state and using the enable inputs for the clocking
function. If the common clock is to be used to clock the
flip-flop, the Clock Enable inputs must be in the low state.
In this case, the enable inputs perform the function of
controlling the common clock.
The output states of the flip-flop change on the positive
transition of the clock. A change in the information present
at the data (D) input will not affect the output information at
any other time due to master slave construction.
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