Texas Instruments SN74LVTH540DBLE, SN74LVTH540DBR, SN74LVTH540DW, SN74LVTH540DWR, SN74LVTH540PWLE Datasheet

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SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
1
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
D
D
I
off
and Power-Up 3-State Support Hot
Insertion
D
Bus Hold on Data Inputs Eliminates the Need for External Pullup/Pulldown Resistors
D
Support Mixed-Mode Signal Operation (5-V Input and Output Voltages With 3.3-V V
CC
)
D
Support Unregulated Battery Operation Down to 2.7 V
D
T ypical V
OLP
(Output Ground Bounce)
< 0.8 V at V
CC
= 3.3 V, TA = 25°C
D
Latch-Up Performance Exceeds 500 mA Per JESD 17
D
ESD Protection Exceeds 2000 V Per MIL-STD-883, Method 3015; Exceeds 200 V Using Machine Model (C = 200 pF, R = 0)
D
Package Options Include Plastic Small-Outline (DW), Shrink Small-Outline (DB), and Thin Shrink Small-Outline (PW) Packages, Ceramic Chip Carriers (FK), Ceramic Flat (W) Package, and Ceramic (J) DIPs
description
These octal buffers/drivers are designed specifically for low-voltage (3.3-V) VCC operation, but with the capability to provide a TTL interface to a 5-V system environment.
The ’L VTH540 devices are ideal for driving bus lines or buffer memory address registers. These devices feature inputs and outputs on opposite sides of the package that facilitate printed circuit board layout.
The 3-state control gate is a 2-input AND gate with active-low inputs so that if either output-enable (OE1
or OE2)
input is high, all outputs are in the high-impedance state. Active bus-hold circuitry is provided to hold unused or floating data inputs at a valid logic level. When V
CC
is between 0 and 1.5 V , the devices are in the high-impedance state during power up or power down.
However, to ensure the high-impedance state above 1.5 V, OE
should be tied to VCC through a pullup resistor;
the minimum value of the resistor is determined by the current-sinking capability of the driver. These devices are fully specified for hot-insertion applications using I
off
and power-up 3-state. The I
off
circuitry disables the outputs, preventing damaging current backflow through the devices when they are powered down. The power-up 3-state circuitry places the outputs in the high-impedance state during power up and power down, which prevents driver conflict.
Copyright 1999, Texas Instruments Incorporated
UNLESS OTHERWISE NOTED this document contains PRODUCTION DATA information current as of publication date. Products conform to specifications per the terms of Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
1 2 3 4 5 6 7 8 9 10
20 19 18 17 16 15 14 13 12 11
OE1
A1 A2 A3 A4 A5 A6 A7 A8
GND
V
CC
OE2 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8
SN54LVTH540...J OR W PACKAGE
SN74LVTH540. . . DB, DW, OR PW PACKAGE
(TOP VIEW)
3212019
910111213
4 5 6 7 8
18 17 16 15 14
Y1 Y2 Y3 Y4 Y5
A3 A4 A5 A6 A7
SN54LVTH540. . . FK PACKAGE
(TOP VIEW)
A2A1OE1
Y7
Y6 OE2
A8
GND
Y8
V
CC
SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
2
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
description (continued)
The SN54LVTH540 is characterized for operation over the full military temperature range of –55°C to 125°C. The SN74LVTH540 is characterized for operation from –40°C to 85°C.
FUNCTION TABLE INPUTS
OUTPUT
OE1 OE2 A
Y
L L L H L LH L HXX Z XHX Z
logic symbol
2
A1
3
A2
4
A3
1
Y1
18
Y2
17
Y3
16
&
EN
5
A4
6
A5
7
A6
Y4
15
Y5
14
Y6
13
19
OE1 OE2
8
A7
9
A8
Y7
12
Y8
11
This symbol is in accordance with ANSI/IEEE Std 91-1984 and IEC Publication 617-12.
1
logic diagram (positive logic)
OE1 OE2
To Seven Other Channels
A1
Y1
1 19
218
SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
3
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
absolute maximum ratings over operating free-air temperature range (unless otherwise noted)
Supply voltage range, V
CC
–0.5 V to 4.6 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Input voltage range, V
I
(see Note 1) –0.5 V to 7 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Voltage range applied to any output in the high-impedance
or power-off state, V
O
(see Note 1) –0.5 V to 7 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Voltage range applied to any output in the high state, V
O
(see Note 1) –0.5 V to VCC + 0.5 V. . . . . . . . . . . . .
Current into any output in the low state, I
O
: SN54LVTH540 96 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SN74LVTH540 128 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Current into any output in the high state, I
O
(see Note 2): SN54LVTH540 48 mA. . . . . . . . . . . . . . . . . . . . . . .
SN74LVTH540 64 mA. . . . . . . . . . . . . . . . . . . . . . .
Input clamp current, I
IK
(VI < 0) –50 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output clamp current, I
OK
(VO < 0) –50 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Package thermal impedance, θ
JA
(see Note 3): DB package 115°C/W. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DW package 97°C/W. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PW package 128°C/W. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Storage temperature range, T
stg
–65°C to 150°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
NOTES: 1. The input and output negative-voltage ratings may be exceeded if the input and output clamp-current ratings are observed.
2. This current flows only when the output is in the high state and VO > VCC.
3. The package thermal impedance is calculated in accordance with JESD 51.
recommended operating conditions (see Note 4)
SN54LVTH540 SN74LVTH540
MIN MAX MIN MAX
UNIT
V
CC
Supply voltage 2.7 3.6 2.7 3.6 V
V
IH
High-level input voltage 2 2 V
V
IL
Low-level input voltage 0.8 0.8 V
V
I
Input voltage 5.5 5.5 V
I
OH
High-level output current –24 –32 mA
I
OL
Low-level output current 48 64 mA
t/v Input transition rise or fall rate 10 10 ns/Vt/V
CC
Power-up ramp rate 200 200 µs/V
T
A
Operating free-air temperature –55 125 –40 85 °C
NOTE 4: All unused control inputs of the device must be held at VCC or GND to ensure proper device operation. Refer to the TI application report,
Implications of Slow or Floating CMOS Inputs
, literature number SCBA004.
PRODUCT PREVIEW information concerns products in the formative or design phase of development. Characteristic data and other specifications are design goals. Texas Instruments reserves the right to change or discontinue these products without notice.
SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
4
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
electrical characteristics over recommended operating free-air temperature range (unless otherwise noted)
SN54LVTH540 SN74LVTH540
PARAMETER
TEST CONDITIONS
MIN TYP†MAX MIN TYP†MAX
UNIT
V
IK
VCC = 2.7 V, II = –18 mA –1.2 –1.2 V VCC = 2.7 V to 3.6 V, IOH = –100 µA VCC–0.2 VCC–0.2 VCC = 2.7 V, IOH = –8 mA 2.4 2.4
V
OH
IOH = –24 mA 2
V
V
CC
= 3
V
IOH = –32 mA 2 IOL = 100 µA 0.2 0.2
V
CC
= 2.7
V
IOL = 24 mA 0.5 0.5 IOL = 16 mA 0.4 0.4
V
OL
IOL = 32 mA 0.5 0.5
V
V
CC
= 3
V
IOL = 48 mA 0.55 IOL = 64 mA 0.55
VCC = 0 or 3.6 V, VI = 5.5 V 10 10
Control inputs VCC = 3.6 V, VI = VCC or GND ±1 ±1
I
I
VI = V
CC
1 1
µ
A
D
ata inputs
V
CC
=
3.6 V
VI = 0 –5 –5
I
off
VCC = 0, VI or VO = 0 to 4.5 V ±100 µA
VI = 0.8 V 75 75
I
I(hold)
Data inputs
V
CC
= 3
V
VI = 2 V –75 –75
µA
()
VCC = 3.6 V‡, VI = 0 to 3.6 V ±500
I
OZH
VCC = 3.6 V, VO = 3 V 5 5 µA
I
OZL
VCC = 3.6 V, VO = 0.5 V –5 –5 µA
I
OZPU
VCC = 0 to 1.5 V, VO = 0.5 V to 3 V, OE
= don’t care
±100
±100 µA
I
OZPD
VCC = 1.5 V to 0, VO = 0.5 V to 3 V, OE
= don’t care
±100
±100 µA
=
Outputs high 0.19 0.19
I
CC
V
CC
= 3.6 V,
IO = 0,
Outputs low 5 5
mA
VI = VCC or GND
Outputs disabled 0.19 0.19
I
CC
§
VCC = 3 V to 3.6 V, One input at VCC – 0.6 V, Other inputs at VCC or GND
0.2 0.2 mA
C
i
VI = 3 V or 0 3 3 pF
C
o
VO = 3 V or 0 7 7 pF
On products compliant to MIL-PRF-38535, this parameter is not production tested. †
All typical values are at VCC = 3.3 V, TA = 25°C.
This is the bus-hold maximum dynamic current. It is the minimum overdrive current required to switch the input from one state to another.
§
This is the increase in supply current for each input that is at the specified TTL voltage level rather than VCC or GND.
PRODUCT PREVIEW information concerns products in the formative or design phase of development. Characteristic data and other specifications are design goals. Texas Instruments reserves the right to change or discontinue these products without notice.
SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
5
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
switching characteristics over recommended ranges of supply voltage and operating free-air temperature, C
L
= 50 pF (unless otherwise noted) (see Figure 1)
SN54LVTH540 SN74LVTH540
PARAMETER
FROM
(INPUT)
TO
(OUTPUT)
VCC = 3.3 V
± 0.3 V
VCC = 2.7 V
VCC = 3.3 V
± 0.3 V
VCC = 2.7 V
UNIT
MIN MAX MIN MAX MIN TYP†MAX MIN MAX
t
PLH
1 3.9 4.7 1.1 2.4 3.8 4.6
t
PHL
A
Y
1 3.9 4.7 1.1 2.7 3.8 4.6
ns
t
PZH
1.4 5.3 6.3 1.5 3.4 5.2 6.2
t
PZL
OE1
or
OE2
Y
1.4 5.5 6.1 1.5 3.7 5.3 5.9
ns
t
PHZ
1.4 5.9 6.2 1.5 3.9 5.6 5.9
t
PLZ
OE1
or
OE2
Y
1.4 5.5 5.8 1.5 3.5 5 5.3
ns
All typical values are at VCC = 3.3 V, TA = 25°C.
PRODUCT PREVIEW information concerns products in the formative or design phase of development. Characteristic data and other specifications are design goals. Texas Instruments reserves the right to change or discontinue these products without notice.
SN54LVTH540, SN74LVTH540
3.3-V ABT OCTAL BUFFERS/DRIVERS WITH 3-STATE OUTPUTS
SCBS681E – MARCH 1997 – REVISED APRIL 1999
6
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
PARAMETER MEASUREMENT INFORMATION
t
h
t
su
From Output
Under Test
CL = 50 pF
(see Note A)
LOAD CIRCUIT
S1
Open
GND
500
500
Data Input
Timing Input
2.7 V
0 V
2.7 V
0 V
2.7 V
0 V
t
w
Input
VOLTAGE WAVEFORMS
SETUP AND HOLD TIMES
VOLTAGE WAVEFORMS
PROPAGATION DELAY TIMES
INVERTING AND NONINVERTING OUTPUTS
VOLTAGE WAVEFORMS
PULSE DURATION
t
PLH
t
PHL
t
PHL
t
PLH
V
OH
V
OH
V
OL
V
OL
2.7 V
0 V
Input
Output
Control
Output
Waveform 1
S1 at 6 V
(see Note B)
Output
Waveform 2
S1 at GND
(see Note B)
V
OL
V
OH
t
PZL
t
PZH
t
PLZ
t
PHZ
3 V
0 V
VOL + 0.3 V
VOH – 0.3 V
0 V
2.7 V
VOLTAGE WAVEFORMS
ENABLE AND DISABLE TIMES
LOW- AND HIGH-LEVEL ENABLING
Output
Output
t
PHL/tPLH
t
PLZ/tPZL
t
PHZ/tPZH
Open
6 V
GND
TEST S1
NOTES: A. CL includes probe and jig capacitance.
B. Waveform 1 is for an output with internal conditions such that the output is low except when disabled by the output control.
Waveform 2 is for an output with internal conditions such that the output is high except when disabled by the output control. C. All input pulses are supplied by generators having the following characteristics: PRR 10 MHz, ZO = 50 , tr 2.5 ns, tf≤ 2.5 ns. D. The outputs are measured one at a time with one transition per measurement.
6 V
1.5 V
1.5 V
1.5 V 1.5 V
1.5 V 1.5 V
1.5 V 1.5 V
1.5 V
1.5 V 1.5 V
1.5 V
1.5 V
1.5 V
1.5 V
Figure 1. Load Circuit and Voltage Waveforms
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T exas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest version of relevant information to verify, before placing orders, that information being relied on is current and complete. All products are sold subject to the terms and conditions of sale supplied at the time of order acknowledgement, including those pertaining to warranty, patent infringement, and limitation of liability.
TI warrants performance of its semiconductor products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. Testing and other quality control techniques are utilized to the extent TI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed, except those mandated by government requirements.
CERT AIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICAL APPLICATIONS”). TI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED, OR WARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT DEVICES OR SYSTEMS OR OTHER CRITICAL APPLICATIONS. INCLUSION OF TI PRODUCTS IN SUCH APPLICA TIONS IS UNDERST OOD TO BE FULLY AT THE CUSTOMER’S RISK.
In order to minimize risks associated with the customer’s applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards.
TI assumes no liability for applications assistance or customer product design. TI does not warrant or represent that any license, either express or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right of TI covering or relating to any combination, machine, or process in which such semiconductor products or services might be or are used. TI’s publication of information regarding any third party’s products or services does not constitute TI’s approval, warranty or endorsement thereof.
Copyright 1999, Texas Instruments Incorporated
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