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M27C4001-10B1 |M27C400110B1STN/a538avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-10C1 |M27C400110C1STMN/a320avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-10C1 |M27C400110C1STN/a47avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-10F1 |M27C400110F1ST ?N/a482avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-10F1. |M27C400110F1STN/a219avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-10F1.. |M27C400110F1STN/a41avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-12B1 |M27C400112B1STN/a2423avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-12C1 |M27C400112C1STN/a1690avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-12F1 |M27C400112F1STMN/a13668avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-12F1. |M27C400112F1STN/a108avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-12F6 |M27C400112F6STN/a9520avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-35XF1 |M27C400135XF1STN/a4000avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-45XF1 |M27C400145XF1N/a24avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-55C1 |M27C400155C1STN/a325avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-80B1 |M27C400180B1STN/a592avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-80XF1 |M27C400180XF1STN/a5880avai4 MBIT (512KB X8) UV EPROM AND OTP ROM
M27C4001-90C1 |M27C400190C1STN/a40avai4 MBIT (512KB X8) UV EPROM AND OTP ROM


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M27C4001-10B1-M27C4001-10C1-M27C4001-10F1-M27C4001-10F1.-M27C4001-10F1..-M27C4001-12B1-M27C4001-12C1-M27C4001-12F1-M27C4001-12F1.-M27C4001-12F6-M27C4001-35XF1-M27C4001-45XF1-M27C4001-55C1-M27C4001-80B1-M27C4001-80XF1-M27C4001-90C1
4 MBIT (512KB X8) UV EPROM AND OTP ROM
1/17November 2000
M27C4001

4 Mbit (512Kb x 8) UV EPROM and OTP EPROM 5V ± 10% SUPPLY VOLTAGE in READ
OPERATION ACCESS TIME: 35ns LOW POWER CONSUMPTION: Active Current 30mA at 5MHz Standby Current 100μA PROGRAMMING VOLTAGE: 12.75V ± 0.25V PROGRAMMING TIME: 100μs/word ELECTRONIC SIGNATURE Manufacturer Code: 20h Device Code: 41h
DESCRIPTION

The M27C4001 is a 4 Mbit EPROM offered in the
two ranges UV (ultra violet erase) and OTP (one
time programmable). It is ideally suited for micro-
processor systems requiring large programs and
is organised as 524,288 by 8 bits.
The FDIP32W (window ceramic frit-seal package)
and LCCC32W (leadless chip carrier package)
have a transparent lid which allow the user to ex-
pose the chip to ultraviolet light to erase the bit pat-
tern. A new pattern can then be written to the
device by following the programming procedure.
For applications where the content is programmed
only one time and erasure is not required, the
M27C4001 is offered in PDIP32, PLCC32 and
TSOP32 (8 x 20 mm) packages.
M27C4001
Table 1. Signal Names
3/17
M27C4001
Table 2. Absolute Maximum Ratings (1)

Note:1. Except for the rating "Operating Temperature Range", stresses above those listed in the Table "Absolute Maximum Ratings" may
cause permanent damage to the device. These are stress ratings only and operation of the device at these or any other conditions
above those indicated in the Operating sections of this specification is not implied. Exposure to Absolute Maximum Rating condi-
tions for extended periods may affect device reliability. Refer also to the STMicroelectronics SURE Program and other relevant qual-
ity documents. Minimum DC voltage on Input or Output is –0.5V with possible undershoot to –2.0V for a period less than 20ns. Maximum DC
voltage on Output is VCC +0.5V with possible overshoot to VCC +2V for a period less than 20ns. Depends on range.
Table 3. Operating Modes (1)

Note:1. X = VIH or VIL, VID = 12V ± 0.5V.
Table 4. Electronic Signature
M27C4001
DEVICE OPERATION

The operating modes of the M27C4001 are listed
in the Operating Modes table. A single power sup-
ply is required in the read mode. All inputs are TTL
levels except for VPP and 12V on A9 for Electronic
Signature.
Read Mode

The M27C4001 has two control functions, both of
which must be logically active in order to obtain
data at the outputs. Chip Enable (E) is the power
control and should be used for device selection.
Output Enable (G) is the output control and should
be used to gate data to the output pins, indepen-
dent of device selection. Assuming that the ad-
dresses are stable, the address access time
(tAVQV) is equal to the delay from E to output
(tELQV). Data is available at the output after a delay
of tGLQV from the falling edge of G, assuming that
E has been low and the addresses have been sta-
ble for at least tAVQV-tGLQV.
Standby Mode

The M27C4001 has a standby mode which reduc-
es the supply current from 30mA to 100μA. The
M27C4001 is placed in the standby mode by ap-
plying a CMOS high signal to the E input. When in
the standby mode, the outputs are in a high imped-
ance state, independent of the G input.
Table 5. AC Measurement Conditions
Table 6. Capacitance (1)
(TA = 25 °C, f = 1 MHz)
Note:1. Sampled only, not 100% tested.
5/17
M27C4001
Table 7. Read Mode DC Characteristics (1)

(TA = 0 to 70 °C or –40 to 85 °C; VCC = 5V ± 5% or 5V ± 10%; VPP = VCC)
Note:1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP. Maximum DC voltage on Output is VCC +0.5V.
Table 8A. Read Mode AC Characteristics (1)

(TA = 0 to 70 °C or –40 to 85 °C; VCC = 5V ± 5% or 5V ± 10%; VPP = VCC)
Note:1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP Sampled only, not 100% tested. Speed obtained with High Speed AC measurement conditions.
Two Line Output Control

Because EPROMs are usually used in larger
memory arrays, this product features a 2 line con-
trol function which accommodates the use of mul-
tiple memory connection. The two line control
function allows: the lowest possible memory power dissipation, complete assurance that output bus contention
will not occur.
For the most efficient use of these two control
lines, E should be decoded and used as the prima-
ry device selecting function, while G should be
made a common connection to all devices in the
array and connected to the READ line from the
system control bus. This ensures that all deselect-
ed memory devices are in their low power standby
mode and that the output pins are only active
when data is required from a particular memory
device.
M27C4001
System Considerations

The power switching characteristics of Advanced
CMOS EPROMs require careful decoupling of the
devices. The supply current, ICC, has three seg-
ments that are of interest to the system designer:
the standby current level, the active current level,
and transient current peaks that are produced by
the falling and rising edges of E. The magnitude of
the transient current peaks is dependent on the
capacitive and inductive loading of the device at
the output. The associated transient voltage peaks
can be suppressed by complying with the two line
output control and by properly selected decoupling
capacitors. It is recommended that a 0.1μF ceram-
ic capacitor be used on every device between VCC
and VSS. This should be a high frequency capaci-
tor of low inherent inductance and should be
placed as close to the device as possible. In addi-
tion, a 4.7μF bulk electrolytic capacitor should be
used between VCC and VSS for every eight devic-
es. The bulk capacitor should be located near the
power supply connection point. The purpose of the
bulk capacitor is to overcome the voltage drop
caused by the inductive effects of PCB traces.
Table 8B. Read Mode AC Characteristics (1)

(TA = 0 to 70 °C or –40 to 85 °C; VCC = 5V ± 5% or 5V ± 10%; VPP = VCC)
Note:1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP. Sampled only, not 100% tested.
7/17
M27C4001
Table 9. Programming Mode DC Characteristics (1)

(TA = 25 °C; VCC = 6.25V ± 0.25V; VPP = 12.75V ± 0.25V)
Note:1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP.
Table 10. Programming Mode AC Characteristics (1)

(TA = 25 °C; VCC = 6.25V ± 0.25V; VPP = 12.75V ± 0.25V)
Note:1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP. Sampled only, not 100% tested.
Programming

When delivered (and after each erasure for UV
EPROM), all bits of the M27C4001 are in the ’1’
state. Data is introduced by selectively program-
ming ’0’s into the desired bit locations. Although
only ’0’s will be programmed, both ’1’s and ’0’s can
be present in the data word. The only way to
change a ’0’ to a ’1’ is by die exposure to ultraviolet
light (UV EPROM). The M27C4001 is in the pro-
gramming mode when VPP input is at 12.75V, G is
at VIH and E is pulsed to VIL. The data to be pro-
grammed is applied to 8 bits in parallel to the data
output pins. The levels required for the address
and data inputs are TTL. VCC is specified to be
6.25V ± 0.25V.
M27C4001
PRESTO II Programming Algorithm

PRESTO II Programming Algorithm allows the
whole array to be programmed with a guaranteed
margin, in a typical time of 52.5 seconds. Pro-
gramming with PRESTO II consists of applying a
sequence of 100μs program pulses to each byte
until a correct verify occurs (see Figure 7). During
programming and verify operation, a MARGIN
MODE circuit is automatically activated in order to
guarantee that each cell is programmed with
enough margin. No overprogram pulse is applied
since the verify in MARGIN MODE provides the
necessary margin to each programmed cell.
Program Inhibit

Programming of multiple M27C4001s in parallel
with different data is also easily accomplished. Ex-
cept for E, all like inputs including G of the parallel
M27C4001 may be common. A TTL low level
pulse applied to a M27C4001’s E input, with VPP
at 12.75V, will program that M27C4001. A high
level E input inhibits the other M27C4001s from
being programmed.
Program Verify

A verify (read) should be performed on the pro-
grammed bits to determine that they were correct-
ly programmed. The verify is accomplished with G
at VIL, E at VIH, VPP at 12.75V and VCC at 6.25V.
9/17
M27C4001
Electronic Signature

The Electronic Signature (ES) mode allows the
reading out of a binary code from an EPROM that
will identify its manufacturer and type. This mode
is intended for use by programming equipment to
automatically match the device to be programmed
with its corresponding programming algorithm.
The ES mode is functional in the 25°C ± 5°C am-
bient temperature range that is required when pro-
gramming the M27C4001. To activate the ES
mode, the programming equipment must force
11.5V to 12.5V on address line A9 of the
M27C4001 with VPP = VCC = 5V. Two identifier
bytes may then be sequenced from the device out-
puts by toggling address line A0 from VIL to VIH. All
other address lines must be held at VIL during
Electronic Signature mode. Byte 0 (A0 = VIL) rep-
resents the manufacturer code and byte 1
(A0= VIH) the device identifier code. For the
STMicroelectronics M27C4001, these two identifi-
er bytes are given in Table 4 and can be read-out
on outputs Q7 to Q0.
ERASURE OPERATION (applies to UV EPROM)

The erasure characteristics of the M27C4001 are
such that erasure begins when the cells are ex-
posed to light with wavelengths shorter than ap-
proximately 4000 Å. It should be noted that
sunlight and some type of fluorescent lamps have
wavelengths in the 3000-4000 Å range. Data
shows that constant exposure to room level fluo-
rescent lighting could erase a typical M27C4001 in
about 3 years, while it would take approximately 1
week to cause erasure when exposed to direct
sunlight. If the M27C4001 is to be exposed to
these types of lighting conditions for extended pe-
riods of time, it is suggested that opaque labels be
put over the M27C4001 window to prevent unin-
tentional erasure. The recommended erasure pro-
cedure for the M27C4001 is exposure to short
wave ultraviolet light which has wavelength of
2537 Å. The integrated dose (i.e. UV intensity x
exposure time) for erasure should be a minimum
of 15 W-sec/cm2 . The erasure time with this dos-
age is approximately 15 to 20 minutes using an ul-
traviolet lamp with 12000 μW/cm2 power rating.
The M27C4001 should be placed within 2.5 cm (1
inch) of the lamp tubes during the erasure. Some
lamps have a filter on their tubes which should be
removed before erasure.
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