74LVTH652 Low Voltage Octal Transceiver/Register with 3-STATE Outputs
April 2000
Revised November 2000
74LVTH652
Low Voltage Octal Transceiver/Register
with 3-STATE Outputs
General Description
The LVTH652 consists of bus transceiver circuits with D-
type flip-flops, and control circuitry arranged for multiplexed
transmission of data directly from the input bus or from the
internal registers. Data on the A or B bus will be clocked
into the registers as the appropriate clock pin goes to HIGH
logic level. Output Enable pins (OEAB, OEBA) are pro-
vided to control the transceiver function. (See Functional
Description).
The LVTH652 data inputs include bushold, eliminating the
need for external pull-up resistors to hold unused inputs.
This octal transceiver/register is designed for low-voltage
(3.3V) V
CC
applications, but with the capability to provide a
TTL interface to a 5V environment. The LVTH652 is fabri-
cated with an advanced BiCMOS technology to achieve
high speed operation similar to 5V ABT while maintaining
low power dissipation.
Features
s
Input and output interface capability to systems at
5V V
CC
s
Bushold data inputs eliminate the need for external
pull-up resistors to hold unused inputs
s
Live insertion/extraction permitted
s
Power Up/Down high impedance provides glitch-free
bus loading
s
Outputs source/sink
−
32 mA/
+
64 mA
s
Functionally compatible with the 74 series 652
s
Latch-up performance exceeds 500 mA
s
ESD performance:
Human-body model
>
2000V
Machine model
>
200V
Charged-device model
>
1000V
Ordering Code:
Order Number
74LVTH652WM
74LVTH652MTC
Package Number
M24B
MTC24
Package Description
24-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-013, 0.300 Wide
24-Lead Thin Shrink Small Outline Package (TSSOP), JEDEC MO-153, 4.4mm Wide
Devices also available in Tape and Reel. Specify by appending suffix letter “X” to the ordering code.
Logic Symbols
IEEE/IEC
© 2000 Fairchild Semiconductor Corporation
DS012018
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74LVTH652
Pin Descriptions
Pin Names
A
0
–A
7
B
0
–B
7
CPAB, CPBA
SAB, SBA
OEAB, OEBA
Description
Data Register A Inputs/
3-STATE Outputs
Data Register B Inputs/
3-STATE Outputs
Clock Pulse Inputs
Select Inputs
Output Enable Inputs
Connection Diagram
Truth Table
(Note 1)
Inputs
OEAB OEBA
L
L
X
H
L
L
L
L
H
H
H
H
H
H
H
X
L
L
L
H
H
L
CPAB
H or L
CPBA
H or L
H or L
SAB
X
X
X
X
X
X
X
X
L
H
H
SBA
X
X
X
X
X
X
L
H
X
X
H
Output
Input
Output
Input
Input
Not Specified
Output
Output
Not Specified
Output
Input
Input
Input
Inputs/Outputs
A
0
thru A
7
Input
B
0
thru B
7
Input
Operating Mode
Isolation
Store A and B Data
Store A, Hold B
Store A in Both Registers
Hold A, Store B
Store B in Both Registers
Real-Time B Data to A Bus
Store B Data to A Bus
Real-Time A Data to B Bus
Stored A Data to B Bus
Stored A Data to B Bus and
Stored B Data to A Bus
H or L
X
X
X
H or L
H or L
�
�
�
�
�
�
�
�
X
X
X
H or L
H or L
H
=
HIGH Voltage Level
L
=
LOW Voltage Level
X
=
Immaterial
�
Output
=
LOW to HIGH Clock Transition
Note 1:
The data output functions may be enabled or disabled by various signals at OEAB or OEBA inputs. Data input functions are always enabled, i.e.,
data at the bus pins will be stored on every LOW-to-HIGH transition on the clock inputs.
Logic Diagram
Please note that this diagram is provided only for the understanding of logic operations and should not be used to estimate propagation delays.
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2
74LVTH652
Functional Description
In the transceiver mode, data present at the HIGH imped-
ance port may be stored in either the A or B register or
both.
The select (SAB, SBA) controls can multiplex stored and
real-time.
The examples below demonstrate the four fundamental
bus-management functions that can be performed with the
LVTH652.
Data on the A or B data bus, or both can be stored in the
internal D-type flip-flop by LOW-to-HIGH transitions at the
appropriate Clock Inputs (CPAB, CPBA) regardless of the
Select or Output Enable Inputs. When SAB and SBA are in
the real time transfer mode, it is also possible to store data
without using the internal D-type flip-flops by simulta-
neously enabling OEAB and OEBA. In this configuration
each Output reinforces its Input. Thus when all other data
sources to the two sets of bus lines are in a HIGH imped-
ance state, each set of bus lines will remain at its last state.
Real-Time Transfer
Bus B to Bus A
Real-Time Transfer
Bus A to Bus B
OEAB
L
OEBA
L
CPAB
X
CPBA
X
SAB
X
SBA
L
OEAB
H
OEBA
H
CPAB
X
CPBA
X
SAB
L
SBA
X
Storage
Transfer Storage
Data to A or B
OEAB
X
L
L
OEBA
H
X
H
CPAB
X
�
�
CPBA
SAB
X
X
X
SBA
X
X
X
OEAB
H
OEBA
L
CPAB
H or L
CPBA
H or L
SAB
H
SBA
H
�
�
X
3
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74LVTH652
Absolute Maximum Ratings
(Note 2)
Symbol
V
CC
V
I
V
O
I
IK
I
OK
I
O
I
CC
I
GND
T
STG
Parameter
Supply Voltage
DC Input Voltage
DC Output Voltage
DC Input Diode Current
DC Output Diode Current
DC Output Current
DC Supply Current per Supply Pin
DC Ground Current per Ground Pin
Storage Temperature
Value
Conditions
Units
V
V
Output in 3-STATE
Output in HIGH or LOW State (Note 3)
V
I
<
GND
V
O
<
GND
V
O
>
V
CC
V
O
>
V
CC
Output at HIGH State
Output at LOW State
V
mA
mA
mA
mA
mA
−
0.5 to
+
4.6
−
0.5 to
+
7.0
−
0.5 to
+
7.0
−
0.5 to
+
7.0
−
50
−
50
64
128
±
64
±
128
−
65 to
+
150
°
C
Recommended Operating Conditions
Symbol
V
CC
V
I
I
OH
I
OL
T
A
Supply Voltage
Input Voltage
HIGH Level Output Current
LOW Level Output Current
Free-Air Operating Temperature
Input Edge Rate, V
IN
=
0.8V–2.0V, V
CC
=
3.0V
Parameter
Min
2.7
0
Max
3.6
5.5
Units
V
V
mA
mA
−
32
64
−
40
0
85
10
°
C
ns/V
∆
t/
∆
V
Note 2:
Absolute Maximum continuous ratings are those values beyond which damage to the device may occur. Exposure to these conditions or conditions
beyond those indicated may adversely affect device reliability. Functional operation under absolute maximum rated conditions is not implied.
Note 3:
I
O
Absolute Maximum Rating must be observed.
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4
74LVTH652
DC Electrical Characteristics
Symbol
V
IK
V
IH
V
IL
V
OH
Parameter
Input Clamp Diode Voltage
Input HIGH Voltage
Input LOW Voltage
Output HIGH Voltage
V
CC
(V)
2.7
2.7–3.6
2.7–3.6
2.7–3.6
2.7
3.0
V
OL
Output LOW Voltage
2.7
2.7
3.0
3.0
3.0
I
I(HOLD)
I
I(OD)
I
I
Bushold Input Minimum Drive
Bushold Input Over-Drive
Current to Change State
Input Current
Control Pins
Data Pins
I
OFF
I
PU/PD
I
OZL
I
OZH
I
OZH
+
I
CCH
I
CCL
I
CCZ
I
CCZ
+
∆I
CC
Power OFF Leakage Current
Power Up/Down 3-STATE
Output Current
3-STATE Output Leakage Current
3-STATE Output Leakage Current
3-STATE Output Leakage Current
Power Supply Current
Power Supply Current
Power Supply Current
Power Supply Current
Increase in Power Supply Current
(Note 6)
Note 4:
An external driver must source at least the specified current to switch from LOW-to-HIGH.
Note 5:
An external driver must sink at least the specified current to switch from HIGH-to-LOW.
Note 6:
This is the increase in supply current for each input that is at the specified voltage level rather than V
CC
or GND.
T
A
=−40°C
to
+85°C
Min
2.0
0.8
V
CC
−
0.2
2.4
2.0
0.2
0.5
0.4
0.5
0.55
75
−75
500
−500
10
±1
−5
1
±100
±100
−5
5
10
0.19
5
0.19
0.19
0.2
Max
−1.2
Units
V
V
V
V
V
V
V
V
V
V
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
mA
mA
mA
mA
mA
Conditions
I
I
= −18
mA
V
O
≤
0.1V or
V
O
≥
V
CC
−
0.1V
I
OH
= −100 µA
I
OH
= −8
mA
I
OH
= −32
mA
I
OL
=
100
µA
I
OL
=
24 mA
I
OL
=
16 mA
I
OL
=
32 mA
I
OL
=
64 mA
V
I
=
0.8V
V
I
=
2.0V
(Note 4)
(Note 5)
V
I
=
5.5V
V
I
=
0V or V
CC
V
I
=
0V
V
I
=
V
CC
0V
≤
V
I
or V
O
≤
5.5V
V
O
=
0.5V to 3.0V
V
I
=
GND or V
CC
V
O
=
0.0V
V
O
=
3.6V
V
CC
<
V
O
≤
5.5V
Outputs HIGH
A or B Port Outputs LOW
Outputs Disabled
V
CC
≤
V
O
≤
5.5V
Outputs Disabled
One Input at V
CC
−
0.6V
Other Inputs at V
CC
or GND
3.0
3.0
3.6
3.6
3.6
0
0–1.5V
3.6
3.6
3.6
3.6
3.6
3.6
3.6
3.6
Dynamic Switching Characteristics
Symbol
V
OLP
V
OLV
Parameter
Quiet Output Maximum Dynamic V
OL
Quiet Output Minimum Dynamic V
OL
V
CC
(V)
3.3
3.3
Min
(Note 7)
T
A
=
25°C
Typ
0.8
−0.8
Max
Conditions
Units
V
V
C
L
=
50 pF, R
L
=
500Ω
(Note 8)
(Note 8)
Note 7:
Characterized in SOIC package. Guaranteed parameter, but not tested.
Note 8:
Max number of outputs defined as (n). n−1 data inputs are driven 0V to 3V. Output under test held LOW.
5
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