NSC CGS2534TV

CGS2534V Commercial/CGS2534TV Industrial
Quad 1 to 4 Clock Drivers
General Description
Features
These Clock Generation and Support clock drivers are specifically designed for driving memory arrays requiring large
fanouts while operating at high speeds,
CGS2534 is a 4 to 16 inverting driver with TTL compatible
I/Os. This device has skew specifications of 350 ps pin-topin as well as a 650 ps specification for part-to-part propagation delay variation.
Y
Y
Y
Y
Y
Y
Y
Y
Y
Guaranteed and tested:
350 ps pin-to-pin skew (tOSHL and tOSLH)
650 ps part-to-part variation on positive or negative
transition
Implemented on National’s ABT family process
Symmetric output current drive: b36/36 mA IOH/IOL
Industrial temperature of b40§ C to a 85§ C
28-pin PLCC for optimum skew performance
Symmetric package orientation
Large fanout for memory driving applications
Guaranteed 2 kV ESD protection
Connection Diagrams
Pin Assignment for 28-Pin PLCC
TL/F/11921 – 5
CGS2534
Truth Table
Input
Output
ln(0 – 3)
ABCD Out (0–3)
TL/F/11921 – 1
C1995 National Semiconductor Corporation
TL/F/11921
RRD-B30M115/Printed in U. S. A.
CGS2534V Commercial/CGS2534TV Industrial
Quad 1 to 4 Clock Drivers
September 1995
Absolute Maximum Ratings (Note)
Recommended Operating
Conditions
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage (VCC)
Input Voltage (VI)
Input Current
Current Applied to Output (High/Low)
Operating Temperature
Industrial Grade
Commercial Grade
Supply Voltage (VCC)
b 40§ C to a 85§ C
0§ C to a 70§ C
b 65§ C to a 150§ C
Storage Temperature Range
Airflow
0 LFM
225 LFM
500 LFM
Typical iJA
62§ C/W
43§ C/W
34§ C/W
27§ C/W
900 LFM
4.5V to 5.5V
Maximum Input Rise/Fall Time (0.8V to 2.0V)
5 ns
Free Air Operating Temperature (TA)
b 40§ C to a 85§ C
Industrial
Commercial
0§ C to a 70§ C
Note: The Absolute Maximum Ratings are those values beyond which the safety of the device cannot be guaranteed.
The device should not be operated at these limits. The parametric values defined in the DC and AC Electrical Characteristics tables are not guaranteed at the absolute maximum
ratings. The Recommended Operating Conditions will define the conditions for actual device operation.
7.0V
7.0V
b 30 mA
twice the rated
IOH/IOL mA
DC Electrical Characteristics
Over recommended operating conditions unless otherwise specified. All typical values are measured at VCC e 5V, TA e 25§ C
Symbol
Parameter
Conditions
Min
VIL
Input Low Level Voltage
VIH
Input High Level Voltage
VIK
Input Clamp Voltage
VCC e 4.5V, II e b18 mA
VOH
High Level Output Voltage
(Note 5)
IOH e b3 mA, VCC e 4.5V
2.4
IOH e b36 mA, VCC e 4.5V
2.0
VOL
Input Current
IIH
Max
Unit
0.8
V
b 1.2
V
2.0
Low Level Output Voltage
(Note 5)
II
Typ
V
VCC e 4.5V, IOL e 36 mA
0.4
0.5
VCC e 4.5V, IOL e 50 mA
0.1
0.1
V
VCC e 5.5V, VIH e 7V
7
High Level Input Current
VCC e 5.5V, VIH e 2.7V
5
IIL
Low Level Input Current
VCC e 5.5V, VIL e 0.4V
IOS
Output Drive Current
VCC e 5.5V, VO e 0V
IOLD
Minimum Dynamic Output Current
(Note 1)
VCC e 5.5V, VOLD e 0.8V
IOHD
Minimum Dynamic Output Current
(Note 1)
VCC e 5.5V, VOHD e 2.0V
ICCT
Maximum ICC/Input
VCC e 5.5V
3.6
mA
ICC
Supply Current ’2534 (Quiescent)
VCC e 5.5V
235
mA
CIN
Input Capacitance
VCC e 5V
@
Max Input Voltage
V
Note 1: Maximum test duration 2.0 ms, one output loaded at a time.
2
b5
mA
mA
mA
b 100
275
mA
70
mA
b 90
mA
5
pF
AC Electrical Characteristics
Over recommended operating conditions unless otherwise specified. All typical values are measured at VCC e 5V, TA e 25§ C
CGS2534
Symbol
TA e a 25§ C
CL e 50 pF
RL e 500X
Parameter
Min
Typ
TA e b40§ C to a 85§ C
CL e 50 pF
RL e 500X
Max
Min
Typ
Unit
Max
fMAX
Frequency Maximum
tPLH
Low-to-High Propagation Delay
INn to OUTn
3.5
3.5
ns
tPHL
High-to-Low Propagation Delay
INn to OUTn
3.5
3.5
ns
tOSHL
Maximum Skew Common
Edge Output-to-Output
Variation (Note 2)
150
350
300
350
ps
Maximum Skew Common
Edge Output-to-Output
Variation (Note 2)
150
350
300
350
ps
1.5
ns
tOSLH
125
MHz
tRISE,
tFALL
Rise/Fall Time
(from 0.8V/2.0V to 2.0V/0.8V)
tHIGH
tLOW
Pulse Width Duration High
Pulse Width Duration Low
(Note 4)
tPVLH
Part-to-Part Variation of
Low-to-High Transitions (Note 3)
650
650
ps
tPVHL
Part-to-Part Variation of
High-to-Low Transitions (Note 3)
650
650
ps
1.5
4
4
4
4
ns
Note 2: Output-to-Output Skew is defined as the absolute value of the difference between the actual propagation delay for any outputs within the same packaged
device. The specifications apply to any outputs switching in the same direction either HIGH to LOW (tOSHL) or LOW to HIGH (tOSLH). Limits are guaranteed by
design.
Note 3: Part to Part transition variation is defined as the absolute difference between the propagation delay of any output on one device to any output on another
device. The specifications apply to any outputs switching in the same direction either HIGH to LOW (tPVHL) or LOW to HIGH (tPVLH). Limits are guaranteed by
design.
Note 4: Time high is measured at 2.0V, time low is measured at 0.8V.
Note 5: For increased drive, output pins may be connected together when the corresponding input pins are connected together.
Timing Information
TL/F/11921 – 2
3
CGS2534/35/36/37
Memory Array Driving
Also this larger fan-out helps to save board space since for
every one of these drivers, two conventional buffers were
typically being used.
Another feature associated with these clock drivers is a
350 ps pin-to-pin skew specification. The minimum skew
specification allows high speed memory system designers
to optimize the performance of their memory sub-system by
operating at higher frequencies without having concerns
about output-to-output (bank-to-bank) synchronization problem which are associated with driving high capacitive loads
(Point B).
The diagram below depicts a ‘‘2534/35/36/37’’ a memory
subsystem operating at high speed with large memory capacity. The address bus is common to both the memory and
the CPU and I/Os.
These drivers can operate beyond 125 MHz, and are also
available in 3V – 5V TTL/CMOS versions with large current
drive .
In order to minimize the total load on the address bus, quite
often memory arrays are being driven by buffers while having the inputs of the buffers tied together. Although this
practice was feasible in the conventional memory designs,
in today’s high speed, large buswidth designs which require
address fetching at higher speeds, this technique produces
many undesired results such as cross-talk and over/undershoot.
CGS2534/35/36/37 Quad 1 to 4 Clock Drivers were designed specifically to address these application issues on
high speed, large memory arrays systems.
These drivers are optimized to driver large loads, with 3.5 ns
propagation delays. These drivers produce less noise while
reducing the total capacitive loading on the address bus by
having only four inputs tied together (see the diagram below, point A). This helps to minimize the overshoot and undershoot by having only four outputs being switched simultaneously.
Device
VCC
I/O
2534
5
TTL
Output Configuration
2535
3 or 5
CMOS
Non-inverting quad 1–4
2536
3 or 5
CMOS
Inverting, Non-inverting, d 2
2537
5
TTL
Inverting quad 1–4
Inverting quad 1–4 with series 8X output resistors
TL/F/11921 – 7
4
5
CGS2534V Commercial/CGS2534TV Industrial
Quad 1 to 4 Clock Drivers
Physical Dimensions inches (millimeters)
28 Lead Molded Plastic Leaded Chip Carrier
Order Number CGS2534V, CGS2534TV
NS Package Number V28A
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