PHILIPS PLUS153DN

Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
DESCRIPTION
PLUS153B/D
FEATURES
The PLUS153 PLDs are high speed,
combinatorial Programmable Logic Arrays.
The Philips Semiconductors state-of-the-art
Oxide Isolated Bipolar fabrication process is
employed to produce propagation delays as
short as 12ns.
• I/O propagation delays (worst case)
The 20-pin PLUS153 devices have a
programmable AND array and a
programmable OR array. Unlike PAL
devices, 100% product term sharing is
supported. Any of the 32 logic product terms
can be connected to any or all of the 10
output OR gates. Most PAL ICs are limited to
7 AND terms per OR function; the PLUS153
devices can support up to 32 input wide OR
functions.
• Two programmable arrays
The polarity of each output is
user-programmable as either active-High or
active-Low, thus allowing AND-OR or
AND-NOR logic implementation. This feature
adds an element of design flexibility,
particularly when implementing complex
decoding functions.
The PLUS153 devices are
user-programmable using one of several
commercially available, industry standard
PLD programmers.
PIN CONFIGURATIONS
N Package
– PLUS153B – 15ns max.
– PLUS153D – 12ns max.
• Functional superset of 16L8 and most
other 20-pin combinatorial PAL devices
– Supports 32 input wide OR functions
• 8 inputs
• 10 bi-directional I/O
• 42 AND gates
– 32 logic product terms
– 10 direction control terms
I0
1
20 VCC
I1
2
19 B9
I2
3
18 B8
I3
4
17 B7
I4
5
16 B6
I5
6
15 B5
I6
7
14 B4
I7
8
13 B3
B0
9
12 B2
GND 10
• Programmable output polarity
11 B1
N = Plastic Dual In-Line Package (300mil-wide)
– Active-High or Active-Low
• Security fuse
• 3-State outputs
• Power dissipation: 750mW (typ.)
• TTL Compatible
A Package
APPLICATIONS
• Random logic
• Code converters
• Fault detectors
• Function generators
• Address mapping
• Multiplexing
I2
I1
3
2
I0 VCC B9
1 20 19
I3
4
18 B8
I4
5
17 B7
I5
6
16 B6
I6
7
15 B5
I7
8
14 B4
9
10
11
12
13
B0 GND B1 B2 B3
A = Plastic Leaded Chip Carrier
ORDERING INFORMATION
DESCRIPTION
tPD (MAX)
ORDER CODE
DRAWING NUMBER
20-Pin Plastic Dual-In-Line 300mil-wide
15ns
PLUS153BN
0408D
20-Pin Plastic Dual-In-Line 300mil-wide
12ns
PLUS153DN
0408D
20-Pin Plastic Leaded Chip Carrier
15ns
PLUS153BA
0400E
20-Pin Plastic Leaded Chip Carrier
12ns
PLUS153DA
0400E
PAL is a registered trademark of Monolithic Memories, Inc., a wholly owned subsidiary of Advanced Micro Devices Corporation.
October 22, 1993
9
853–1285 11164
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
LOGIC DIAGRAM
(LOGIC TERMS–P)
I0
1
I1
2
I2
3
I3
4
I4
5
I5
6
I6
7
I7
8
(CONTROL TERMS)
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
S9
X9
X8
X7
X6
X5
X4
X3
X2
X1
31
24 23
16 15
8 7
0
NOTES:
1. All programmed ‘AND’ gate locations are pulled to logic “1”.
2. All programmed ‘OR’ gate locations are pulled to logic “0”.
3.
Programmable connection.
October 22, 1993
10
X0
S8
S7
S6
S5
S4
S3
S2
S1
S0
D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
19 B9
18 B8
17 B7
16 B6
15 B5
14 B4
13 B3
12 B2
11 B1
9 B0
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
FUNCTIONAL DIAGRAM
P31
P0
D0
D9
I0
I7
B0
B9
S9
B9
X9
S0
B0
X0
ABSOLUTE MAXIMUM RATINGS1
THERMAL RATINGS
TEMPERATURE
RATING
SYMBOL
PARAMETER
MIN
MAX
UNIT
Maximum junction
150°C
75°C
VCC
Supply voltage
+7
VDC
Maximum ambient
VIN
Input voltage
+5.5
VDC
VOUT
Output voltage
+5.5
VDC
Allowable thermal rise
ambient to junction
IIN
Input currents
+30
mA
IOUT
Output currents
+100
mA
Tamb
Operating free-air temperature range
0
+75
°C
Tstg
Storage temperature range
–65
+150
°C
–30
NOTES:
1. Stresses above those listed may cause malfunction or permanent damage to the device.
This is a stress rating only. Functional operation at these or any other condition above
those indicated in the operational and programming specification of the device is not
implied.
October 22, 1993
11
75°C
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
DC ELECTRICAL CHARACTERISTICS
0°C ≤ Tamb ≤ +75°C, 4.75 ≤ VCC ≤ 5.25V
LIMITS
SYMBOL
Input
PARAMETER
TEST CONDITIONS
MIN
TYP1
MAX
UNIT
0.8
V
voltage2
VIL
Low
VCC = MIN
VIH
High
VCC = MAX
VIC
Clamp
Output
2.0
VCC = MIN, IIN = –12mA
V
–0.8
–1.2
V
0.5
V
voltage2
VCC = MIN
VOL
Low4
IOL = 15mA
VOH
High5
IOH = –2mA
2.4
V
Input current9
VCC = MAX
IIL
Low
VIN = 0.45V
–100
µA
IIH
High
VIN = VCC
40
µA
VOUT = 2.7V
80
µA
VOUT = 0.45V
–140
Output current
VCC = MAX
IO(OFF)
IOS
ICC
Hi-Z state8
Short circuit3, 5, 6
VCC supply
current7
VOUT = 0V
VCC = MAX
–15
150
–70
mA
200
mA
Capacitance
VCC = 5V
CIN
Input
VIN = 2.0V
8
pF
CB
I/O
VB = 2.0V
15
pF
NOTES:
1. All typical values are at VCC = 5V, Tamb = +25°C.
2. All voltage values are with respect to network ground terminal.
3. Test one at a time.
4. Measured with inputs I0 – I2 = 0V, inputs I3 – I5 = 4.5V, inputs I7 = 4.5V and I6 = 10V. For outputs B0 – B4 and for outputs B5 – B9 apply the
same conditions except I7 = 0V.
5. Same conditions as Note 4 except I7 = +10V.
6. Duration of short circuit should not exceed 1 second.
7. ICC is measured with inputs I0 – I7 and B0 – B9 = 0V.
8. Leakage values are a combination of input and output leakage.
9. IIL and IIH limits are for dedicated inputs only (I0 – I7).
October 22, 1993
12
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
AC ELECTRICAL CHARACTERISTICS
0°C ≤ Tamb ≤ +75°C, 4.75V ≤ VCC ≤ 5.25V, R1 = 300Ω, R2 = 390Ω
LIMITS
SYMBOL
PARAMETER
FROM
TO
TEST
PLUS153B
CONDITION
MIN
PLUS153D
MIN
UNIT
TYP
MAX
TYP
MAX
tPD
Propagation Delay2
Input +/–
Output +/–
CL = 30pF
11
15
10
12
ns
tOE
Output Enable1
Input +/–
Output –
CL = 30pF
11
15
10
12
ns
tOD
Output Disable1
Input +/–
Output +
CL = 5pF
11
15
10
12
ns
NOTES:
1. For 3-State output; output enable times are tested with CL = 30pF to the 1.5V level, and S1 is open for high-impedance to High tests and
closed for high-impedance to Low tests. Output disable times are tested with CL = 5pF. High-to-High impedance tests are made to an output
voltage of VT = (VOH – 0.5V) with S1 open, and Low-to-High impedance tests are made to the VT = (VOL + 0.5V) level with S1 closed.
2. All propagation delays are measured and specified under worst case conditions.
VOLTAGE WAVEFORMS
TEST LOAD CIRCUIT
+3.0V
90%
+5V
VCC
S1
10%
0V
C1
tR
5ns
tF
C2
R1
5ns
BY
I0
+3.0V
90%
INPUTS
I7
BW
10%
CL
R2
DUT
0V
5ns
5ns
MEASUREMENTS:
All circuit delays are measured at the +1.5V level
of inputs and outputs, unless otherwise specified.
Input Pulses
TIMING DEFINITIONS
SYMBOL
BX
GND
BZ
OUTPUTS
NOTE:
C1 and C2 are to bypass VCC to GND.
TIMING DIAGRAM
PARAMETER
+3V
tPD
Propagation delay between
input and output.
tOD
Delay between input change
and when output is off (Hi-Z
or High).
tOE
I, B
1.5V
1.5V
0V
VOH
B
1.5V
Delay between input change
and when output reflects
specified output level.
October 22, 1993
1.5V
1.5V
VT
VOL
tPD
13
tOD
tOE
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
LOGIC PROGRAMMING
PLUS153B/D
PROGRAMMING AND
SOFTWARE SUPPORT
The PLUS153B/D is fully supported by
industry standard (JEDEC compatible) PLD
CAD tools, including Philips Semiconductors
SNAP design software package. ABEL and
CUPL design software packages also
support the PLUS153B/D architecture.
Refer to Section 9 (Development Software)
and Section 10 (Third-Party
Programmer/Software Support) of this data
handbook for additional information.
All packages allow Boolean and state
equation entry formats. SNAP, ABEL and
CUPL also accept, as input, schematic
capture format.
OUTPUT POLARITY – (B)
PLUS153B/D logic designs can also be
generated using the program table entry
format, which is detailed on the following
page. This program table entry format is
supported by SNAP only.
S
S
B
B
X
X
To implement the desired logic functions, the
state of each logic variable from logic
equations (I, B, O, P, etc.) is assigned a
symbol. The symbols for TRUE,
COMPLEMENT, INACTIVE, PRESET, etc.,
are defined below.
ACTIVE LEVEL
CODE
HIGH1
(NON–INVERTING)
ACTIVE LEVEL
CODE
LOW
H
(INVERTING)
L
AND ARRAY – (I, B)
I, B
I, B
I, B
I, B
I, B
I, B
I, B
P, D
I, B
I, B
I, B
I, B
P, D
I, B
P, D
P, D
STATE
CODE
STATE
CODE
STATE
CODE
STATE
CODE
INACTIVE1, 2
O
I, B
H
I, B
L
DON’T CARE
–
OR ARRAY – (B)
VIRGIN STATE
P
A factory shipped virgin device contains all
fusible links intact, such that:
1. All outputs are at “H” polarity.
P
S
S
2. All Pn terms are disabled.
3. All Pn terms are active on all outputs.
Pn STATUS
CODE
Pn STATUS
ACTIVE1
A
INACTIVE
CODE
•
NOTES:
1. This is the initial unprogrammed state of all links.
2. Any gate Pn will be unconditionally inhibited if both the true and complement of an input (either
I or B) are left intact.
ABEL is a trademark of Data I/O Corp.
CUPL is a trademark of Logical Devices, Inc.
October 22, 1993
14
October 22, 1993
H
L
—
I, B
I, B
DON’T CARE
VARIABLE
NAME
0
INACTIVE
AND
I, B(I)
LOW
HIGH
L
H
B(0)
(POL)
A
CONTROL
INACTIVE
ACTIVE
OR
Unused I and B bits in the AND array should be programmed
as Don’t Care (–).
Unused product terms in the OR array should be
programmed as INACTIVE (o).
Output polarity is non–inverting.
All AND gates are pulled to a logic “0” (Low).
NOTES
In the unprogrammed state:
CF(XXXX)
PROGRAM TABLE #
REV
TOTAL NUMBER OF PARTS
DATE
CUSTOMER SYMBOLIZED PART #
PHILIPS DEVICE #
PURCHASE ORDER #
CUSTOMER NAME
Philips Semiconductors Programmable Logic Devices
T
E
R
M
PIN
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
PROGRAM TABLE
POLARITY
I
AND
B(I)
0
1
2
3
4
5
6
7
8
10
9
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
D9
31
D8
D7
D6
D5
D4
D3
D2
D1
D0
7
6
5
4
3
2
1
0
8
7
6
5
4
3
2
1
9
8
15
7
6
5
B(0)
OR
4
3
2
1
19 18 17 16 15 14 13 12 11
0
9
9
1
0
19 18 17 16 15 14 13 12 11
9
8
7
6
5
4
3
2
Philips Semiconductors Programmable Logic Devices
Product specification
Programmable logic arrays
(18 × 42 × 10)
PLUS153B/D
SNAP RESOURCE SUMMARY DESIGNATIONS
P31
P0
D0
D9
DIN153
I0
NIN153
I7
DIN153
B0
NIN153
B9
AND
CAND
TOUT153
S9
B9
X9
OR
S0
B0
X0
EXOR153
October 22, 1993
16