MC26LS30
ELECTRICAL CHARACTERISTICS (EIA−423−A single−ended mode, Pin 4 q 2.0 V, −40°C t TA t 85°C, 4.75 V p VCC ,
|VEE p 5.25 V, (Notes 1 and 3) unless otherwise noted).
Characteristic
Symbol
Min
Typ
Max
Unit
Output Voltage (VCC = VEE = 4.75 V)
Single−Ended Voltage, RL = ∞ (Figure 2)
Single−Ended Voltage, RL = 450 Ω, (Figure 2)
Voltage Imbalance (Note 5), RL = 450 Ω
Slew Control Current (Pins 16, 13, 12, 9)
Output Current (Each Output)
Power Off Leakage, VCC = VEE = 0, −6.0 V p VO p +6.0 V
Short Circuit Current (Output Short to Ground, Note 2)
Vin p 0.8 V (TA = 25°C)
Vin p 0.8 V (−40°C t TA t +85°C)
Vin w 2.0 V (TA = 25°C)
Vin w 2.0 V (−40°C t TA t +85°C)
Inputs
Low Level Voltage
High Level Voltage
Current @ Vin = 2.4 V
Current @ Vin = 15 V
Current @ Vin = 0.4 V
Current, 0 p Vin p 15 V, VCC = 0
Clamp Voltage (Iin = −12 mA)
Power Supply Current (Outputs Open)
VCC = +5.25 V, VEE = −5.25 V, Vin = 0.4 V
Vdc
VO1
4.0
4.2
6.0
VO2
3.6
3.95
6.0
∆VO2
−
0.05
0.4
ISLEW
−
±120
−
µA
IOLK
ISC+
ISC+
ISC−
ISC−
−100
0
+100
µA
60
80
150
mA
50
−
150
−150
−95
−60
−150
−
−50
VIL
−
−
0.8
Vdc
VIH
2.0
−
−
Vdc
IIH
−
0
40
µA
IIHH
−
0
100
IIL
−200
− 8.0
−
IIX
−
0
−
VIK
−1.5
−
−
Vdc
ICC
−
17
30
mA
IEE
−22
− 8.0
−
TIMING CHARACTERISTICS (EIA−423−A single−ended mode, Pin 4 q 2.0 V, TA = 25°C, VCC = 5.0 V, VEE = −5.0 V, (Notes 1 and
3) unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
Output Timing (Figure 5)
Output Rise Time, CC = 0
Output Fall Time, CC = 0
Output Rise Time, CC = 50 pF
Output Fall Time, CC = 50 pF
tr
−
tf
−
tr
−
tf
−
Rise Time Coefficient (Figure 16)
Crt
−
Propagation Delay Time, Input to Single Ended Output (Figure 5)
Input Low to High, CC = 0
Input High to Low, CC = 0
tPDH
−
tPDL
−
Skew Timing, CC = 0 (Figure 5)
tPDH to tPDL for Each Driver
Max to Min tPDH Within a Package
Max to Min tPDL Within a Package
tSK4
−
tSK5
−
tSK6
−
1. All voltages measured with respect to Pin 5.
2. Only one output shorted at a time, for not more than 1 second.
3. Typical values established at +25°C, VCC = +5.0 V, VEE = −5.0 V.
4. Vin switched from 0.8 to 2.0 V.
5. Imbalance is the difference between VO2 with Vin t 0.8 V and VO2 with Vin u 2.0 V.
65
300
ns
65
300
3.0
−
µs
3.0
−
0.06
−
µs/pF
ns
100
300
100
300
ns
15
−
2.0
−
5.0
−
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