NSC 27C16Q883

27C16
16,384-Bit (2048 x 8) UV Erasable CMOS PROM
Military Qualified
General Description
Features
The 27C16 is a high speed 16K UV erasable and electrically
reprogrammable CMOS EPROM, ideally suited for applications where fast turnaround, pattern experimentation and
low power consumption are important requirements.
The 27C16 is packaged in a 24-pin dual-in-line package with
transparent lid. The transparent lid allows the user to expose the chip to ultraviolet light to erase the bit pattern. A
new pattern can then be written into the device by following
the programming procedure.
This EPROM is fabricated with the reliable, high volume,
time proven, P2CMOSTM silicon gate technology.
The 27C16 specified on this data sheet is fully compliant
with MIL-STD-883, Revision C.
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Access time down to 450 ns
Low CMOS power consumption
Ð Active Power: 26.25 mW max
Ð Standby Power: 0.53 mW max (98% savings)
Performance compatible to NSC800TM CMOS microprocessor
Single 5V power supply
Pin compatible to MM2716 and higher density EPROMs
StaticÐno clocks required
TTL compatible inputs/outputs
TRI-STATEÉ output
Windowed DIP Package
Specifications guaranteed over full military temperature
range (b55§ C to a 125§ C)
Block Diagram
Pin Names
A0 – A10
Addresses
CE
Chip Enable
OE
Output Enable
O0 –O7
Outputs
PGM
Program
NC
No Connect
TL/D/10329 – 1
TRI-STATEÉ is a registered trademark of National Semiconductor Corporation.
NS800TM are P2CMOSTM trademarks of National Semiconductor Corporation.
C1995 National Semiconductor Corporation
TL/D/10329
RRD-B30M105/Printed in U. S. A.
27C16 16,384-Bit (2048 x 8) UV Erasable CMOS PROM Military Qualified
January 1989
Connection Diagram
27C256
27C128
27C64
27C32
27C32
27C64
27C128
27256
27256
27128
2764
2732
2732
2764
27128
27256
VPP
VPP
VPP
A12
A12
A12
VCC
VCC
VCC
PGM
PGM
A7
A7
A7
A7
A14
VCC
NC
A13
A6
A6
A6
A13
A6
A8
A8
A8
A5
A5
A8
A5
A5
A9
A9
A9
A4
A9
A4
A4
A4
A11
A11
A11
A11
A3
A3
A3
A3
OE/VPP
OE
OE
OE
A2
A2
A2
A2
A10
A10
A10
A10
A1
A1
A1
A1
CE
CE
CE
CE
A0
A0
A0
A0
O7
O7
O7
O7
O0
O0
O0
O0
O6
O6
O6
O6
O1
O1
O1
O1
O5
O5
O5
O5
O2
O2
O2
O2
O4
O4
O4
O4
GND
GND
GND
GND
O3
O3
O3
O3
Dual-In-Line Package
27C16Q
TL/D/10329 – 2
Top View
Note: Socket compatible EPROM pin configurations are shown in the blocks adjacent to the 27C16 pins.
Military Temp Range (b55§ C to a 125§ C) VCC e 5V g 10%
Parameter/Order Number
Access Time (ns)
27C16Q450/883
450
27C16Q550/883
550
2
Absolute Maximum Ratings (Note 1)
Operating Conditions (Note 9)
b 55§ C to a 125§ C
Temperature Under Bias
Storage Temperature
Temperature Range (Tcase)
VCC Power Supply (Notes 2 and 3)
b 65§ C to a 125§ C
All Input Voltages with
Respect to Ground
b 55§ C to a 125§ C
5V a 10%
VPP Power Supply (Note 3)
VCC
a 6.5V to b 0.3V
All Output Voltages with
Respect to Ground (Note 11) VCC a 0.3V to GND b0.3V
VPP Supply Voltage
with Respect to Ground
during Programming
a 26.5V to b 0.3V
Power Dissipation
Lead Temperature
(Soldering, 10 Seconds)
1.0W
300§ C
READ OPERATION
DC Electrical Characteristics
Symbol
Parameter
Conditions
Min
Typ
(Note 4)
Max
Units
ILI
Input Load Current
VIN e VCC or VIL
10
mA
ILO
Output Leakage Current
VOUT e VCC or VIL, CE e VIH
10
mA
ICC1
(Note 3)
VCC Current (Active)
TTL Inputs
OE e CE e VIL, f e 1 MHz
Inputs e VIH or VIL, I/O e 0 mA
2
30
mA
ICC2
(Note 3)
VCC Current (Active)
CMOS Inputs
OE e CE e VIL, f e 1 MHz
Inputs e VCC or GND, I/O e 0 mA
1
25
ICCSB1
VCC Current (Standby)
TTL Inputs
CE e VIH
0.1
1
mA
ICCSB2
VCC Current (Standby)
CMOS Inputs
CE e VCC
0.01
0.1
mA
VIL
Input Low Voltage
b 0.1
0.8
V
VIH
Input High Voltage
2.2
VCC a 1
V
VOL1
Output Low Voltage
IOL e 2.1 mA
VOH1
Output High Voltage
IOH e b400 mA
VOL2
Output Low Voltage
IOL e 0 mA
VOH2
Output High Voltage
IOH e 0 mA
0.45
2.4
mA
V
V
0.1
4.4
V
V
AC Electrical Characteristics
27C16
Symbol
Parameter
Conditions
450
Min
tACC
550
Max
Min
Units
Max
Address to Output Delay
CE e OE e VIL
450
550
ns
tCE
CE to Output Delay
OE e VIL
450
550
ns
tOE
OE to Output Delay
CE e VIL
120
120
ns
tDF
OE High to Output Float
CE e VIL
100
ns
tOH
(Note 5)
Output Hold from Addresses,
CE or OE, Whichever
Occurred First
CE e OE e VIL
0
0
3
100
0
0
ns
Capacitance TA e a 25§ C, f e 1 MHz (Note 5)
Typ
Max
Units
CIN
Symbol
Input Capacitance
Parameter
VIN e 0V
Conditions
4
10
pF
COUT
Output Capacitance
VOUT e 0V
8
12
pF
AC Test Conditions
Output Load
Input Rise and Fall Times
Input Pulse Levels
Timing Measurement Reference Level
Inputs
Outputs
1 TTL Gate and CL e 100 pF
s 20 ns
0.8V to 2.2V
1V and 2V
0.8V and 2V
AC Waveforms (Notes 2, 8, 9, 10)
TL/D/10329 – 3
Note 1: Stresses above those listed under ‘‘Absolute Maximum Ratings’’ may cause permanent damage to the device. This is a stress rating only and functional
operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect device reliability.
Note 2: VCC must be applied simultaneously or before VPP and removed simultaneously or after VPP.
Note 3: VPP may be connected to VCC except during programming. ICC1 s the sum of the ICC active and IPP read currents.
Note 4: Typical values are for TA e a 25§ C and nominal supply voltages.
Note 5: This parameter is only sampled and is not 100% tested.
Note 6: OE may be delayed up to tACC b tOE after the falling edge of CE without impact on tACC.
Note 7: The tDF compare level is determined as follows:
High to TRI-STATE, the measured VOH1 (DC) b 0.10V
Low to TRI-STATE, the measured VOL1 (DC) a 0.10V
Note 8: TRI-STATE may be attained using OE or CE.
Note 9: The power switching characteristics of EPROMs require careful device decoupling. It is recommended that a 0.1 mF ceramic capacitor be used on every
device between VCC and GND.
Note 10: The 27C16 requires one address transition after initial power-up to reset the outputs.
Note 11: The outputs must be restricted to VCC a 0.3V to avoid latch-up and device damage.
4
PROGRAMMING CHARACTERISTICS (Note 1)
DC Programming Characteristics (Notes 2 & 3)
(TA e a 25§ C g 5§ C, VCC e 5V g 10%, VPP e 25V g 1V)
Symbol
Parameter
Conditions
Max
Units
Input Current (for Any Input)
VIN e VCC or GND
10
mA
IPP
VPP Supply Current during
Programming Pulse
CE/PGM e VIH
30
mA
ICC
VCC Supply Current
10
mA
ILI
Min
Typ
VIL
Input Low Level
b 0.1
VIH
Input High Level
2.0
0.8
V
VCC a 1
V
AC Programming Characteristics (Notes 2 & 3)
(TA e a 25§ C g 5§ C, VCC e 5V g 10%, VPP e 25V g 1V)
Symbol
Parameter
Conditions
Min
Typ
Max
Units
tAS
Address Setup Time
2
ms
tOES
OE Setup Time
2
mS
tDS
Data Setup Time
2
ms
tAH
Address Hold Time
2
ms
tOEH
OE Hold Time
2
ms
tDH
Data Hold Time
tDF
Output Enable to Output Float Delay
CE/PGM e VIL
tOE
Output Enable to Output Delay
CE/PGM e VIL
tPW
Program Pulse Width
45
tPRT
Program Pulse Rise Time
5
ns
tPFT
Program Pulse Fall Time
5
ns
2
ms
0
50
120
ns
100
ns
55
ms
AC Test Conditions
VCC
VPP
Input Rise and Fall Times
Input Pulse Levels
Timing Measurement Reference Level
Inputs
Outputs
5V g 10%
25V g 1V
s 20 ns
0.8V to 2.2V
5
1V and 2V
0.8V and 2V
Programming Waveforms VPP e 25V g 11V, VCC e 5V g 5% (Note 3)
TL/D/10329 – 4
Note: All times shown in parentheses are minimum and in ms unless otherwise specified.
Note 1: National’s standard product warranty applies only to devices programmed to specifications described herein.
Note 2: VCC must be applied simultaneously or before VPP and removed simultaneously or after VPP. The 27C16 must not be inserted into or removed from a board
with VPP at 25V g 1V to prevent damage to the device.
Note 3: The maximum allowable voltage which may be applied to the VPP pin during programming is 26V. Care must be taken when switching the VPP supply to
prevent overshoot exceeding this 26V maximum specification. A 0.1 mF capacitor is required across VPP, VCC to GND to suppress spurious voltage transients
which may damage the device.
Functional Description
b) complete assurance that output bus contention will not
occur.
To most efficiently use these two control lines, it is recommended that CE (pin 18) be decoded and used as the primary device selecting function, while OE (pin 20) be made a
common connection to all devices in the array and connected to the READ line from the system control bus. This assures that all deselected memory devices are in their low
power standby modes and that the output pins are active
only when data is desired from a particular memory device.
DEVICE OPERATION
The six modes of operation of the 27C16 are listed in Table
I. It should be noted that all inputs for the six modes are at
TTL levels. The power supplies required are a 5V VCC and a
VPP. The VPP power supply must be at 25V during the three
programming modes, and must be at 5V in the other three
modes.
Read Mode
The 27C16 has two control functions, both of which must be
logically active in order to obtain data at the outputs. Chip
Enable (CE) is the power control and should be used for
device selection. Output Enable (OE) is the output control
and should be used to gate data to the output pins, independent of device selection. Assuming that addresses are stable, address access time (tACC) is equal to the delay from
CE to output (tCE). Data is available at the outputs tOE after
the falling edge of OE, assuming that CE has been low and
addresses have been stable for at least tACC – tOE. The
27C16 requires one address transition after initial power-up
to reset the outputs.
Programming
CAUTION: Exceeding 26.5V on pin 21 (VPP) will damage the
27C16.
Initially, and after each erasure, all bits of the 27C16 are in
the ‘‘1’’ state. Data is introduced by selectively programming ‘‘0s’’ into the desired bit locations. Although only ‘‘0s’’
will be programmed, both ‘‘1s’’ and ‘‘0s’’ can be presented
in the data word. The only way to change a ‘‘0’’ to a ‘‘1’’ is
by ultraviolet light erasure.
The 27C16 is in the programming mode when the VPP power supply is at 25V and OE is at VIH. It is required that a
0.1 mF capacitor be placed across VPP, VCC to ground to
suppress spurious voltage transients which may damage
the device. The data to be programmed is applied 8 bits in
parallel to the data output pins. The levels required for the
address and data inputs are TTL.
When the address and data are stable, a 50 ms, active high,
TTL program pulse is applied to the CE/PGM input. A program pulse must be applied at each address location to be
programmed. You can program any location at any timeÐ
either individually, sequentially, or at random. The program
pulse has a maximum width of 55 ms. The 27C16 must not
be programmed with a DC signal applied to the CE/PGM
input.
Standby Mode
The 27C16 has a standby mode which reduces the active
power dissipation by 98%, from 26.25 mW to 0.53 mW. The
27C16 is placed in the standby mode by applying a TTL high
signal to the CE input. When in standby mode, the outputs
are in a high impedance state, independent of the OE input.
Output OR-Tying
Because 27C16s are usually used in larger memory arrays,
National has provided a 2-line control function that accommodates this use of multiple memory connections. The
2-line control function allows for:
a) the lowest possible memory power dissipation, and
6
Functional Description (Continued)
12,000 mW/cm2 power rating. The 27C16 should be placed
within 1 inch of the lamp tubes during erasure. Some lamps
have a filter on their tubes which should be removed before
erasure.
Programming multiple 27C16s in parallel with the same data
can be easily accomplished due to the simplicity of the programming requirements. Like inputs of the paralleled
27C16s may be connected together when they are programmed with the same data. A high level TTL pulse applied to the CE/PGM input programs the paralleled 27C16s.
Note: The 27C16-550 may take up to 60 minutes for complete erasure to
occur.
An erasure system should be calibrated periodically. The
distance from lamp to unit should be maintained at one inch.
The erasure time increases as the square of the distance. (If
distance is doubled the erasure time increases by a factor of
4.) Lamps lose intensity as they age. When a lamp is
changed, the distance has changed, or the lamp has aged,
the system should be checked to make certain full erasure
is occurring. Incomplete erasure will cause symptoms that
can be misleading. Programmers, components, and even
system designs have been erroneously suspected when incomplete erasure was the problem.
Program Inhibit
Programming multiple 27C16s in parallel with different data
is also easily accomplished. Except for CE/PGM, all like
inputs (including OE) of the parallel 27C16s may be common. A TTL level program pulse applied to an 27C16’s CE/
PGM input with VPP at 25V will program that 27C16. A low
level CE/PGM input inhibits the other 27C16 from being
programmed.
Program Verify
A verify should be performed on the programmed bits to
determine whether they were correctly programmed. The
verify may be performed with VPP at 25V. VPP must be at
VCC, except during programming and program verify.
SYSTEM CONSIDERATION
The power switching characteristics of EPROMs require
careful decoupling of the devices. The supply current, ICC,
has three segments that are of interest to the system designerÐthe standby current level, the active current level,
and the transient current peaks that are produced on the
falling and rising edges of chip enable. The magnitude of
these transient current peaks is dependent on the output
capacitance loading of the device. The associated transient
voltage peaks can be suppressed by properly selected decoupling capacitors. It is recommended that a 0.1 mF ceramic capacitor be used on every device between VCC and
GND. This should be a high frequency capacitor of low inherent inductance. In addition, a 4.7 mF bulk electrolytic capacitor should be used between VCC and GND for each
eight devices. The bulk capacitor should be located near
where the power supply is connected to the array. The purpose of the bulk capacitor is to overcome the voltage drop
caused by the inductive effects of the PC board traces.
ERASURE CHARACTERISTICS
The erasure characteristics of the 27C16 are such that erasure begins to occur when exposed to light with wavelengths shorter than approximately 4000 Angstroms (Ð). It
should be noted that sunlight and certain types of fluorescent lamps have wavelengths in the 3000Ж4000Рrange.
Opaque labels should be placed over the 27C16 window to
prevent unintentional erasure. Covering the window will also
prevent temporary functional failure due to the generation of
photo currents.
The recommended erasure procedure for the 27C16 is exposure to short wave ultraviolet light which has a wavelength of 2537 Angstroms (Ð). The integrated dose (i.e., UV
intensity c exposure time) for erasure should be a minimum
of 15W-sec/cm2. The erasure time with this dosage is approximately 21 minutes using an ultraviolet lamp with a
TABLE I. Mode Selection
Pins
Mode
CE/PGM
(18)
OE
(20)
VP
(21)
VCC
(24)
Outputs
(9 – 11, 13 – 17)
Read
VIL
VIL
VCC
5
DOUT
Standby
VIH
Don’t Care
VCC
5
Hi-Z
Program
Pulsed VIL to VIH
VIH
25
5
DIN
Program Verify
VIL
VIL
25
5
DOUT
Program Inhibit
VIL
VIH
25
5
Hi-Z
Output Disable
X
VIH
VCC
5
Hi-Z
7
27C16 16,384-Bit (2048 x 8) UV Erasable CMOS PROM Military Qualified
Physical Dimensions inches (millimeters)
Lit. Ý 114700
24 Lead Ceramic Dual-In-Line Package (J)
Order Number 27C16Q450/883 or 27C16Q550/883
NS Package Number J24AQ
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systems which, (a) are intended for surgical implant
into the body, or (b) support or sustain life, and whose
failure to perform, when properly used in accordance
with instructions for use provided in the labeling, can
be reasonably expected to result in a significant injury
to the user.
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Corporation
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Arlington, TX 76017
Tel: 1(800) 272-9959
Fax: 1(800) 737-7018
2. A critical component is any component of a life
support device or system whose failure to perform can
be reasonably expected to cause the failure of the life
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effectiveness.
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