ONSEMI M74VHC1G126DFT1G

MC74VHC1G126
Noninverting 3−State Buffer
The MC74VHC1G126 is an advanced high speed CMOS
noninverting 3−state buffer fabricated with silicon gate CMOS
technology. It achieves high speed operation similar to equivalent
Bipolar Schottky TTL while maintaining CMOS low power
dissipation.
The internal circuit is composed of three stages, including a buffered
3−state output which provides high noise immunity and stable output.
The MC74VHC1G126 input structure provides protection when
voltages up to 7 V are applied, regardless of the supply voltage. This
allows the MC74VHC1G126 to be used to interface 5 V circuits to 3 V
circuits.
•
•
•
•
•
•
•
High Speed: tPD = 3.5 ns (Typ) at VCC = 5 V
Low Power Dissipation: ICC = 1 mA (Max) at TA = 25°C
Power Down Protection Provided on Inputs
Balanced Propagation Delays
Pin and Function Compatible with Other Standard Logic Families
Chip Complexity: FETs = 58; Equivalent Gates = 15
Pb−Free Packages are Available
OE
1
IN A
2
GND
3
5
VCC
4
OUT Y
MARKING
DIAGRAMS
5
5
1
SC−88A/SOT−353/SC−70
DF SUFFIX
CASE 419A
M
Features
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W2 M G
G
1
5
W2 M G
G
5
1
TSOP−5/SOT−23/SC−59
DT SUFFIX
CASE 483
1
W2 = Device Code
M
= Date Code*
G
= Pb−Free Package
(Note: Microdot may be in either location)
*Date Code orientation and/or position may vary
depending upon manufacturing location.
PIN ASSIGNMENT
1
Figure 1. Pinout (Top View)
OE
EN
IN A
OE
2
IN A
3
GND
4
OUT Y
5
VCC
OUT Y
FUNCTION TABLE
Figure 2. Logic Symbol
A Input
OE Input
Y Output
L
H
X
H
H
L
L
H
Z
ORDERING INFORMATION
See detailed ordering and shipping information in the
package dimensions section on page 4 of this data sheet.
© Semiconductor Components Industries, LLC, 2007
February, 2007 − Rev. 14
1
Publication Order Number:
MC74VHC1G126/D
MC74VHC1G126
MAXIMUM RATINGS
Symbol
Characteristics
Value
Unit
VCC
DC Supply Voltage
−0.5 to +7.0
V
VIN
DC Input Voltage
−0.5 to +7.0
V
−0.5 to 7.0
−0.5 to VCC + 0.5
V
−20
mA
+20
mA
VOUT
DC Output Voltage
VCC = 0
High or Low State
IIK
Input Diode Current
IOK
Output Diode Current
IOUT
DC Output Current, per Pin
+25
mA
ICC
DC Supply Current, VCC and GND
+50
mA
VOUT < GND; VOUT > VCC
PD
Power dissipation in still air
qJA
Thermal resistance
TL
Lead temperature, 1 mm from case for 10 secs
TJ
Junction temperature under bias
Tstg
Storage temperature
VESD
ESD Withstand Voltage
ILatchup
Latchup Performance
SC−88A, TSOP−5
200
mW
SC−88A, TSOP−5
333
°C/W
260
°C
+150
°C
−65 to +150
°C
> 2000
> 200
N/A
V
±500
mA
Human Body Model (Note 1)
Machine Model (Note 2)
Charged Device Model (Note 3)
Above VCC and Below GND at 125°C (Note 4)
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. Tested to EIA/JESD22−A114−A
2. Tested to EIA/JESD22−A115−A
3. Tested to JESD22−C101−A
4. Tested to EIA/JESD78
RECOMMENDED OPERATING CONDITIONS
Symbol
Characteristics
Min
Max
Unit
VCC
DC Supply Voltage
2.0
5.5
V
VIN
DC Input Voltage
0.0
5.5
V
DC Output Voltage
0.0
VCC
V
−55
+125
°C
0
0
100
20
ns/V
VOUT
TA
Operating Temperature Range
tr , tf
VCC = 3.3 V ± 0.3 V
VCC = 5.0 V ± 0.5 V
Input Rise and Fall Time
90
419,300
47.9
100
178,700
20.4
110
79,600
9.4
120
37,000
4.2
130
17,800
2.0
140
8,900
1.0
TJ = 80° C
117.8
TJ = 90° C
1,032,200
TJ = 100° C
80
FAILURE RATE OF PLASTIC = CERAMIC
UNTIL INTERMETALLICS OCCUR
TJ = 110° C
Time, Years
TJ = 120° C
Time, Hours
TJ = 130° C
Junction
Temperature °C
NORMALIZED FAILURE RATE
Device Junction Temperature versus
Time to 0.1% Bond Failures
1
1
10
100
1000
TIME, YEARS
Figure 3. Failure Rate vs. Time Junction Temperature
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2
MC74VHC1G126
DC ELECTRICAL CHARACTERISTICS
Symbol
Parameter
Test Conditions
Min
1.5
2.1
3.15
3.85
VIH
Minimum High−Level
Input Voltage
2.0
3.0
4.5
5.5
VIL
Maximum Low−Level
Input Voltage
2.0
3.0
4.5
5.5
VOH
Minimum High−Level
Output Voltage
VIN = VIH or VIL
VOL
Maximum Low−Level
Output Voltage
VIN = VIH or VIL
TA ≤ 85°C
TA = 25°C
VCC
(V)
Typ
Max
Min
1.5
2.1
3.15
3.85
0.5
0.9
1.35
1.65
VIN = VIH or VIL
IOH = −50 mA
2.0
3.0
4.5
1.9
2.9
4.4
VIN = VIH or VIL
IOH = −4 mA
IOH = −8 mA
3.0
4.5
2.58
3.94
VIN = VIH or VIL
IOL = 50 mA
2.0
3.0
4.5
VIN = VIH or VIL
IOL = 4 mA
IOL = 8 mA
Max
2.0
3.0
4.5
−55 ≤ TA ≤ 125°C
Min
Max
1.5
2.1
3.15
3.85
0.5
0.9
1.35
1.65
V
0.5
0.9
1.35
1.65
1.9
2.9
4.4
1.9
2.9
4.4
2.48
3.80
2.34
3.66
Unit
V
V
V
0.0
0.0
0.0
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
3.0
4.5
0.36
0.36
0.44
0.44
0.52
0.52
V
V
IOZ
Maximum 3−State
Leakage Current
VIN = VIH or VIL
VOUT = VCC or GND
5.5
±0.2
5
±2.5
±2.5
mA
IIN
Maximum Input
Leakage Current
VIN = 5.5 V or GND
0 to
5.5
±0.1
±1.0
±1.0
mA
ICC
Maximum Quiescent
Supply Current
VIN = VCC or GND
5.5
1.0
20
40
mA
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AC ELECTRICAL CHARACTERISTICS Cload = 50 pF, Input tr = tf = 3.0 ns
TA ≤ 85°C
TA = 25°C
Symbol
tPLH,
tPHL
tPZL,
tPZH
tPLZ,
tPHZ
CIN
COUT
Parameter
Min
Test Conditions
Typ
Max
Min
Max
−55 ≤ TA ≤ 125°C
Min
Max
Unit
ns
Maximum Propagation
Delay, Input A to Y
(Figures 3. and 5.)
VCC = 3.3 ± 0.3 V CL = 15 pF
CL = 50 pF
4.5
6.4
8.0
11.5
9.5
13.0
12.0
16.0
VCC = 5.0 ± 0.5 V CL = 15 pF
CL = 50 pF
3.5
4.5
5.5
7.5
6.5
8.5
8.5
10.5
Maximum Output Enable
Time, Input OE to Y
(Figures 4. and 5.)
VCC = 3.3 ± 0.3 V CL = 15 pF
RL = 1000 W
CL = 50 pF
4.5
6.4
8.0
11.5
9.5
13.0
11.5
15.0
VCC = 5.0 ± 0.5 V CL = 15 pF
RL = 1000 W
CL = 50 pF
3.5
4.5
5.1
7.1
6.0
8.0
8.5
10.5
Maximum Output Disable
Time, Input OE to Y
(Figures 4. and 5.)
VCC = 3.3 ± 0.3 V CL = 15 pF
RL = 1000 W
CL = 50 pF
6.5
8.0
9.7
13.2
11.5
15.0
14.5
18.0
VCC = 5.0 ± 0.5 V CL = 15 pF
RL = 1000 W
CL = 50 pF
4.8
7.0
6.8
8.8
8.0
10.0
10.0
12.0
Maximum Input
Capacitance
4.0
10
10
10
Maximum 3−State Output
Capacitance (Output in
High Impedance State)
6.0
ns
ns
pF
pF
Typical @ 25°C, VCC = 5.0 V
8.0
CPD
Power Dissipation Capacitance (Note 5)
pF
5. CPD is defined as the value of the internal equivalent capacitance which is calculated from the operating current consumption without load.
Average operating current can be obtained by the equation: ICC(OPR) = CPD VCC fin + ICC. CPD is used to determine the no−load dynamic
power consumption; PD = CPD VCC2 fin + ICC VCC.
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3
MC74VHC1G126
SWITCHING WAVEFORMS
OE
A
tPHL
tPLH
GND
tPZL
VCC
50%
VCC
50%
tPZH
50% VCC
HIGH
IMPEDANCE
50% VCC
Y
GND
tPLZ
VOL + 0.3V
tPHZ
VOH − 0.3V
50% VCC
Y
HIGH
IMPEDANCE
Y
Figure 4. Switching Waveforms
Figure 5.
TEST POINT
TEST POINT
OUTPUT
DEVICE
UNDER
TEST
DEVICE
UNDER
TEST
C L*
*Includes all probe and jig capacitance
OUTPUT
1 kW
CL *
CONNECT TO VCC WHEN
TESTING tPLZ AND tPZL.
CONNECT TO GND WHEN
TESTING tPHZ AND tPZH.
*Includes all probe and jig capacitance
Figure 6. Test Circuit
Figure 7. Test Circuit
INPUT
Figure 8. Input Equivalent Circuit
ORDERING INFORMATION
Device
Package
MC74VHC1G126DFT1
SC−88A/SOT−353/SC−70
M74VHC1G126DFT1G
SC−88A/SOT−353/SC−70
(Pb−Free)
MC74VHC1G126DFT2
SC−88A/SOT−353/SC−70
M74VHC1G126DFT2G
SC−88A/SOT−353/SC−70
(Pb−Free)
MC74VHC1G126DTT1
TSOP−5/SOT−23/SC−59
M74VHC1G126DTT1G
TSOP−5/SOT−23/SC−59
(Pb−Free)
Shipping †
3000 Units / Tape & Reel
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
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4
MC74VHC1G126
PACKAGE DIMENSIONS
SC−88A / SOT−353 / SC70
CASE 419A−02
ISSUE H
NOTES:
1. DIMENSIONING AND TOLERANCING
PER ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
3. 419A−01 OBSOLETE. NEW STANDARD
419A−02.
4. DIMENSIONS A AND B DO NOT INCLUDE
MOLD FLASH, PROTRUSIONS, OR GATE
BURRS.
A
G
5
4
−B−
S
1
2
DIM
A
B
C
D
G
H
J
K
N
S
3
D 5 PL
0.2 (0.008)
M
B
M
N
INCHES
MIN
MAX
0.071
0.087
0.045
0.053
0.031
0.043
0.004
0.012
0.026 BSC
−−−
0.004
0.004
0.010
0.004
0.012
0.008 REF
0.079
0.087
J
C
K
H
SOLDERING FOOTPRINT*
0.50
0.0197
0.65
0.025
0.65
0.025
0.40
0.0157
1.9
0.0748
SCALE 20:1
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
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5
mm Ǔ
ǒinches
MILLIMETERS
MIN
MAX
1.80
2.20
1.15
1.35
0.80
1.10
0.10
0.30
0.65 BSC
−−−
0.10
0.10
0.25
0.10
0.30
0.20 REF
2.00
2.20
MC74VHC1G126
PACKAGE DIMENSIONS
TSOP−5
CASE 483−02
ISSUE F
NOTE 5
2X
0.10 T
2X
0.20 T
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ASME Y14.5M, 1994.
2. CONTROLLING DIMENSION: MILLIMETERS.
3. MAXIMUM LEAD THICKNESS INCLUDES
LEAD FINISH THICKNESS. MINIMUM LEAD
THICKNESS IS THE MINIMUM THICKNESS
OF BASE MATERIAL.
4. DIMENSIONS A AND B DO NOT INCLUDE
MOLD FLASH, PROTRUSIONS, OR GATE
BURRS.
5. OPTIONAL CONSTRUCTION: AN
ADDITIONAL TRIMMED LEAD IS ALLOWED
IN THIS LOCATION. TRIMMED LEAD NOT TO
EXTEND MORE THAN 0.2 FROM BODY.
D 5X
0.20 C A B
5
1
4
2
3
M
B
S
K
L
DETAIL Z
G
A
DIM
A
B
C
D
G
H
J
K
L
M
S
DETAIL Z
J
C
0.05
SEATING
PLANE
H
T
MILLIMETERS
MIN
MAX
3.00 BSC
1.50 BSC
0.90
1.10
0.25
0.50
0.95 BSC
0.01
0.10
0.10
0.26
0.20
0.60
1.25
1.55
0_
10 _
2.50
3.00
SOLDERING FOOTPRINT*
0.95
0.037
1.9
0.074
2.4
0.094
1.0
0.039
0.7
0.028
SCALE 10:1
mm Ǔ
ǒinches
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
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
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For additional information, please contact your local
Sales Representative
MC74VHC1G126/D