ETC 74LVX373T

74LVX373

LOW VOLTAGE OCTAL D-TYPE LATCH
(3-STATE NON INV.) WITH 5V TOLERANT INPUTS
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HIGH SPEED: tPD = 5.8 ns (TYP.) at VCC = 3.3V
5V TOLERANT INPUTS
POWER-DOWN PROTECTION ON INPUTS
INPUT VOLTAGE LEVEL:
VIL = 0.8V, VIH = 2V at VCC = 3V
LOW POWER DISSIPATION:
ICC = 4 µA (MAX.) at TA = 25 oC
LOW NOISE:
VOLP = 0.3 V (TYP.) at VCC = 3.3V
SYMMETRICAL OUTPUT IMPEDANCE:
|IOH| = IOL = 4 mA (MIN)
BALANCED PROPAGATION DELAYS:
tPLH ≅ tPHL
OPERATING VOLTAGE RANGE:
VCC (OPR) = 2V to 3.6V
PIN AND FUNCTION COMPATIBLE WITH
74 SERIES 373
IMPROVED LATCH-UP IMMUNITY
DESCRIPTION
The LVX373 is a low voltage CMOS OCTAL
D-TYPE LATCH with 3 STATE OUTPUT NON
INVERTING fabricated with sub-micron silicon
gate and double-layer metal wiring C2MOS
technology. It is ideal for low power and low noise
3.3V applications.
This 8 bit D-Type latch is controlled by a latch
enable input (LE) and an output enable input
(OE).
M
(Micro Package)
T
(TSSOP Package)
ORDER CODES :
74LVX373M
74LVX373T
While the LE input is held at a high level, the Q
outputs will follow the data input precisely.
When the LE is taken low, the Q outputs will be
latched precisely at the logic level of D input data.
While the (OE) input is low, the 8 outputs will be
in a normal logic state (high or low logic level)
and while high level the outputs will be in a high
impedance state.
It has better speed performance at 3.3V than 5V
LS-TTL family combined with the true CMOS low
power consuption.
Power down protection is provided on all inputs
and 0 to 7V can be accepted on inputs with no
regard to the supply voltage. This device can be
used to interface 5V to 3V.
All inputs and outputs are equipped with
protection circuits against static discharge, giving
them 2KV ESD immunity and transient excess
voltage.
PIN CONNECTION AND IEC LOGIC SYMBOLS
May 1999
1/10
74LVX373
INPUT EQUIVALENT CIRCUIT
PIN DESCRIPTION
PIN No
SYMBOL
1
OE
NAME AND FUNCT ION
2, 5, 6, 9,
12, 15, 17,
18
Q0 to Q7
3 State Outputs
3, 4, 7, 8,
13, 14, 17,
18
D0 to D7
Data Inputs
11
LE
Latch Enable
Input
10
GND
Ground (0V)
20
VCC
Positive Supply Voltage
3 State Output Enable
Input (Active LOW)
TRUTH TABLE
INPUT S
LE
D
H
X
X
Z
L
L
X
NO CHANGE *
Q
L
H
L
L
L
H
H
H
X: Don’t care
Z: High impedance
* Q outputs are latched at the time when the LE input is taken low.
LOGICS DIAGRAM
2/10
OUTPUTS
OE
74LVX373
ABSOLUTE MAXIMUM RATINGS
Symbol
VCC
Parameter
Supply Voltage
VI
DC Input Voltage
VO
DC Output Voltage
Value
Unit
-0.5 to +7.0
V
-0.5 to 7.0
V
-0.5 to VCC + 0.5
V
IIK
DC Input Diode Current
- 20
mA
IOK
DC Output Diode Current
± 20
mA
IO
DC Output Current
± 25
mA
± 50
mA
ICC or IGND DC VCC or Ground Current
Tstg
Storage Temperature
TL
Lead Temperature (10 sec)
-65 to +150
o
300
o
C
C
Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these condition is not implied.
RECOMMENDED OPERATING CONDITIONS
Symbol
VCC
Parameter
Supply Voltage (note 1)
Valu e
Unit
2 to 3.6
V
V
VI
Input Voltage
0 to 5.5
VO
Output Voltage
0 to VCC
Top
dt/dv
Operating Temperature:
Input Rise and Fall Time (VCC = 3V) (note 2)
-40 to +85
0 to 100
V
o
C
ns/V
1) Truth Table guaranteed: 1.2V to 3.6V
2) VIN from 0.8V to 2V
3/10
74LVX373
DC SPECIFICATIONS
Symb ol
VIH
VIL
Parameter
High Level Input Voltage
Low Level Input Voltage
Test Co nditions
Valu e
T A = 25 oC
Min.
2.0
1.5
1.5
3.0
2.0
2.0
3.6
2.4
T yp.
Max.
Max.
V
2.4
0.5
0.5
3.0
0.8
0.8
0.8
0.8
High Level Output
Voltage
2.0
Low Level Output
Voltage
2.0
3.0
3.0
VOL
Min.
2.0
3.6
VOH
Un it
-40 to 85 o C
V CC
(V)
3.0
VI =
V IH or
V IL
I O =-50 µA
1.9
2.0
1.9
IO=-50 µA
2.9
3.0
2.9
IO=-4 mA
2.58
VI(*) =
VIH or
VIL
IO=50 µA
0.0
0.1
0.1
IO=50 µA
0.0
0.1
0.1
(* )
V
V
2.48
0.36
0.44
Input Leakage Current
3.6
VI = 5V or GND
±0.1
±1
µA
IOZ
3 State Output Leakage
Current
3.6
VI = VIH or VIL
VO = VCC or GND
±0.25
±2.5
µA
ICC
Quiescent Supply
Current
3.6
VI = VCC or GND
2
20
µA
3.0
II
IO=4 mA
V
(*) All outputs loaded.
DYNAMIC SWITCHING CHARACTERISTICS
Symb ol
Parameter
Test Co nditions
Dynamic Low Voltage
Quiet Output (note 1, 2)
3.3
VIHD
Dynamic High Voltage
Input (note 1, 3)
3.3
VILD
Dynamic Low Voltage
Input (note 1, 3)
3.3
VOLP
VOLV
Valu e
T A = 25 oC
V CC
(V)
Min.
T yp.
Max.
0.3
0.8
-0.8
-0.3
2
C L = 50 pF
Un it
-40 to 85 o C
Min.
Max.
V
0.8
1) Worst case package
2) Max number of outputs defined as (n). Data inputs are driven 0V to 3.3V, (n -1) outputs switching and one output at GND
3) max number of data inputs (n) switching. (n-1) switching 0V to3.3V. Inputs under test switching: 3.3V to threshold (VILD), 0V to threshold (VIHD). f=1MHz
4/10
74LVX373
AC ELECTRICAL CHARACTERISTICS (CL = 50 pF, Input tr = tf =3 ns)
Symb ol
Parameter
T est Con ditio n
CL
(p F)
V CC
(V)
tPLH
tPHL
Propagation Delay Time
LE to Q
tPLH
tPHL
Propagation Delay Time
D to Q
tPZL
tPZH
Output Enable Time
2.7
2.7
15
50
3.3(*)
3.3(*)
2.7
2.7
3.3(*)
3.3(*)
2.7
15
50
15
50
15
50
15
2.7
3.3(*)
50
15
50
50
50
50
50
50
tw
LE pulse Width, HIGH
ts
Setup Time D to LE
HIGH or LOW
3.3(*)
2.7
3.3(*)
2.7
3.3(*)
2.7
3.3(*)
Hold Time D to LE
HIGH or LOW
2.7
3.3(*)
Output to Output Skew
Time (note 1, 2)
3.3
tPLZ
tPHZ
th
tOSLH
tOSHL
Output Disable Time
2.7
(*)
R L = 1 kΩ
R L = 1 kΩ
50
50
50
Valu e
T A = 25 oC
-40 to
Min. T yp. Max. Min.
7.5
14.5
1.0
10.0 18.0
1.0
Un it
85 o C
Max.
17.5
21.0
ns
6.8
9.3
7.7
10.2
6.0
8.5
7.7
10.3
13.8
15.0
18.5
9.7
13.2
15.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
12.0
15.5
18.5
22.0
11.5
15.0
18.5
ns
10.2
6.0
18.5
9.7
1.0
1.0
22.0
11.5
ns
8.5
9.8
8.2
6.5
5.0
6.0
4.0
13.2
18.0
12.8
1.0
1.0
1.0
15.0
21.0
14.5
7.5
5.0
6.0
4.0
1.0
1.0
1.0
1.0
50
0.5
1.0
1.5
50
0.5
1.0
1.5
ns
ns
ns
ns
ns
1) Skew is defined as the absolute value of the difference between the actual propagation delay for any twooutputs of the same device switching in the
same direction, either HIGH or LOW
2) Parameter guaranteed by design
(*) Voltage range is 3.3V ± 0.3V
CAPACITIVE CHARACTERISTICS
Symb ol
Parameter
Test Co nditions
C IN
Valu e
o
Un it
o
-40 to 85 C
T A = 25 C
Min. T yp. Max. Min. Max.
V CC
(V)
Input Capacitance
3.3
5
pF
COUT
Output Capacitance
3.3
10
pF
CPD
Power Dissipation
Capacitance (note 1)
3.3
10
pF
fIN = 10 MHz
1) CPD isdefined as the value of the IC’sinternal equivalent capacitance which is calculated fromthe operating current consumption without load. (Referto
Test Circuit).Average operting current can be obtained by the following equation. ICC(opr) = CPD • VCC • fIN + ICC/8(per circuit)
5/10
74LVX373
TEST CIRCUIT
T EST
tPLH , tPHL
SW IT CH
Open
tPZL , tPLZ
VCC
tPZH , tPHZ
GND
CL = 15/50 pF or equivalent (includes jig and probe capacitance)
RL = R1 = 1KΩ orequivalent
RT = ZOUT of pulse generator (typically 50Ω)
WAVEFORM 1: LE TO Qn PROPAGATION DELAYS, LE MINIMUM PULSE WIDTH,
Dn TO LE SETUP AND HOLD TIMES (f=1MHz; 50% duty cycle)
6/10
74LVX373
WAVEFORM 2: OUTPUT ENABLE AND DISABLE TIMES (f=1MHz; 50% duty cycle)
WAVEFORM 3: PROPAGATION DELAY TIME (f=1MHz; 50% duty cycle)
7/10
74LVX373
SO-20 MECHANICAL DATA
mm
DIM.
MIN.
TYP.
A
a1
inch
MAX.
MIN.
TYP.
2.65
0.10
0.104
0.20
a2
MAX.
0.004
0.007
2.45
0.096
b
0.35
0.49
0.013
0.019
b1
0.23
0.32
0.009
0.012
C
0.50
0.020
c1
45 (typ.)
D
12.60
13.00
0.496
0.512
E
10.00
10.65
0.393
0.419
e
1.27
0.050
e3
11.43
0.450
F
7.40
7.60
0.291
0.299
L
0.50
1.27
0.19
0.050
M
S
0.75
0.029
8 (max.)
P013L
8/10
74LVX373
TSSOP20 MECHANICAL DATA
mm
DIM.
MIN.
inch
TYP.
MAX.
A
MIN.
TYP.
MAX.
1.1
0.433
A1
0.05
0.10
0.15
0.002
0.004
0.006
A2
0.85
0.9
0.95
0.335
0.354
0.374
b
0.19
0.30
0.0075
0.0118
c
0.09
0.2
0.0035
0.0079
D
6.4
6.5
6.6
0.252
0.256
0.260
E
6.25
6.4
6.5
0.246
0.252
0.256
E1
4.3
4.4
4.48
0.169
0.173
0.176
e
0.65 BSC
0.0256 BSC
K
0o
4o
8o
0o
4o
8o
L
0.50
0.60
0.70
0.020
0.024
0.028
A
A2
A1
b
K
e
L
E
c
D
E1
PIN 1 IDENTIFICATION
1
9/10
74LVX373
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of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is
granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are
subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products
are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
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 1999 STMicroelectronics – Printed in Italy – All Rights Reserved
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