Datasheet MX26C4000BMI-12, MX26C4000BMI-10, MX26C4000BPC-90, MX26C4000BMC-12, MX26C4000BMC-10 Datasheet (MXIC)

FEATURES

ADVANCE INFORMATION

MX26C4000B

4M-BIT [512K x 8] CMOS

MULTIPLE-TIME-PROGRAMMABLE-EPROM

• 512Kx 8 organization

• Single +5V power supply

• +12V programming voltage

• Fast access time:70/90/100/120/150 ns

• Totally static operation

• Completely TTL compatible

• Operating current:30mA

• Standby current: 100uA

GENERAL DESCRIPTION

The MX26C4000B is a 5V only, 4M-bit, MTP EPROM
(Multiple Time Programmable Read Only Memory). It is
organized as 512K words by 8 bits per word, operates
from a single + 5 volt supply, has a static standby mode,
and features fast single address location programming.
All programming signals are TTL levels, requiring a
single pulse. It is design to be programmed and erased

PIN CONFIGURATIONS
32 PDIP/SOP

VCC

32

A18

31

A17

30

A14

29

A13

28

A8

27

A9

26

A11

25

OE

24

A10

23

CE

22

Q7

21

Q6

20

Q5

19

Q4

18

Q3

17

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

32 TSOP

A11

A9

A8
A13
A14
A17
A18

VCC

VPP

A16
A15
A12

A7

A6

A5

A4

VPP

1

A16

2

A15

3

A12

4

A7

5

A6

6

A5

7

A4

8

A3

9

A2

10
A1
A0
Q0
Q1
Q2

GND

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

MX26C4000B

11

12

13

14

15

16

MX26C4000B

TM

OE
A10
CE
Q7
Q6
Q5
Q4
Q3
GND
Q2
Q1
Q0
A0
A1
A2
A3

• Chip erase time: 2s (typ.)

• Chip program time: 25s (typ.)

• 100 minimum erase/program cycles

• Typical fast programming cycle duration 100us/byte

• Package type:

- 32 pin plastic DIP

- 32 pin PLCC

- 32 pin TSOP

- 32 pin SOP

by an EPROM programmer or on-board. The
MX26C4000B supports a intelligent fast programming
algorithm which can result in programming time of less
than one minute.

This MTP EPROMTM is packaged in industry standard 32
pin dual-in-line packages, 32 lead PLCC, 32 lead SOP
and 32 lead TSOP packages.

32 PLCC

A12

A15

A16

VPP

VCC

A18

A17

4

5

A7
A6
A5
A4

9

A3
A2
A1
A0

13

Q0

14 17 20

Q1

PIN DESCRIPTION

SYMBOL PIN NAME

A0~A18 Address Input
Q0~Q7 Data Input/Output
CE Chip Enable Input
OE Output Enable Input
VPP Program Supply Voltage
N C No Internal Connection
VC C Power Supply Pin (+5V)
GN D Ground Pin

1

32

MX26C4000B

Q2

Q3Q4Q5

GND

30

A14

29

A13
A8
A9
A11

25

OE
A10
CE
Q7

21

Q6

P/N: PM0768

1

REV. 0.6, JAN. 14, 2002

BLOCK DIAGRAM

CE
OE

CONTROL

INPUT

LOGIC

PROGRAM/ERASE

HIGH VOLTA GE

X-DECODER

MX26C4000B

MX26C4000B

WRITE
STATE

MACHINE

(WSM)

STATE

A0-A18

ADDRESS

LATCH

AND

BUFFER

FLASH
ARRA Y

Y-DECODER

Y-PASS GATE

SENSE

AMPLIFIER

DATA LATCH

REGISTER

ARRAY

SOURCE

HV

COMMAND

DATA

DECODER

PGM

DATA

HV

COMMAND

DATA LATCH

PROGRAM

P/N: PM0768

Q0-Q7

I/O BUFFER

2

REV. 0.6, JAN. 14, 2002

MX26C4000B

FUNCTIONAL DESCRIPTION

When the MX26C4000B is delivered, or it is erased, the
chip has all 4M bits in the "ONE", or HIGH state.
"ZEROs" are loaded into the MX26C4000B through the
procedure of programming.

ERASE ALGORITHM

The MX26C4000B do not required preprogramming
before an erase operation. The erase algorithm is a close
loop flow to simultaneously erase all bits in the entire
array. Erase operation starts with the initial erase
operation. Erase verification begins at address 0000H
by reading data FFH from each byte. If any byte fails
to erase. the entire chip is reerased. to a maximum for
10 pulse counts of 500ms duration for each pulse. The
maximum cumulative erase time is 3s. However. the
device is usually erased in no more than 3 pulses. Erase
verification time can be reduced by storing the address
of the last byte that failed. Following the next erase
operation verification may start at the stored address
location. JEDEC standard erase algorithm can also be
used. But erase time will increase by performing the
unnecessary preprogramming.

to the Read Mode. Robust design features prevent
inadvertent write cycles resulting from VCC power-up and
power-down transitions or system noise. To avoid initiation
of write cycle during VCC power-up, a write cycle is locked
out for VCC less than 4V. The two- command program and
erase write sequence to the command register provide
additional software protection against spurious data
changes.

PROGRAM VERIFY MODE

Verification should be performed on the programmed bits
to determine that they were correctly programmed.
Verification should be performed with OE and CE, at
VIL, and VPP at its programming voltage.

ERASE VERIFY MODE

Verification should be performed on the erased chip to
determine that the whole chip(all bits) was correctly
erased. Verification should be performed with OE and
CE at VIL, and VCC = 5V, VPP = 12.5V

AUTO IDENTIFY MODE

PROGRAM ALGORITHM

The device is programmed byte by byte. A maximum
of 25 pulses. each of 100us duration is allowed for each
byte being programmed. The byte may be programmed
sequentially or by random. After each program pulse,
a program verify is done to determine if the byte has
been successfully programmed.

Programming then proceeds to the next desired byte
location. JEDEC standard program algorithms can be
used.

DATA WRITE PROTECTION

The design of the device protects against accidental
erasure or programming. The internal state machine is
automatically reset to the read mode on power-up. Using
control register architecture, alteration of memory can
only occur after completion of proper command
sequences. The command register is only active when V

is at high voltage. when V PP = V

PP

, the device defaults

PPL

The auto identify mode allows the reading out of a binary
code from MTP EPROM that will identify its
manufacturer and device type. This mode is intended
for use by programming equipment for the purpose of
automatically matching the device to be programmed
with its corresponding programming algorithm. This
mode is functional in the 25°C ± 5°C ambient temperature
range that is required when programming the
MX26C4000B.

To activate this mode, the programming equipment must
force 12.0 ± 0.5 V on address line A9 of the device.
Two identifier bytes may then be sequenced from the
device outputs by toggling address line A0 from VIL
to VIH. All other address lines must be held at VIL
during auto identify mode.

Byte 0 ( A0 = VIL) represents the manufacturer code,
and byte 1 (A0 = VIH), the device identifier code. For
the MX26C4000B, these two identifier bytes are given
in the Mode Select Table. All identifiers for manufacturer
and device codes will possess odd parity, with the MSB
(DQ7) defined as the parity bit.

P/N: PM0768

3

REV. 0.6, JAN. 14, 2002

READ MODE

The MX26C4000B has two control functions, both of
which must be logically satisfied 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.

STANDBY MODE

The MX26C4000B has a CMOS standby mode which
reduces the maximum VCC current to 100 uA. It is
placed in CMOS standby when CE is at VCC ± 0.3 V.
The MX26C4000B also has a TTL-standby mode which
reduces the maximum VCC current to 1.5 mA. It is
placed in TTL-standby when CE is at VIH. When in
standby mode, the outputs are in a high-impedance
state, independent of the OE input.

MX26C4000B

SYSTEM CONSIDERATIONS

During the switch between active and standby
conditions, transient current peaks are produced on the
rising and falling edges of Chip Enable. The magnitude
of these transient current peaks is dependent on the
output capacitance loading of the device. At a minimum,
a 0.1 uF ceramic capacitor (high frequency, low inherent
inductance) should be used on each device between
VCC and GND to minimize transient effects. In addition,
to overcome the voltage drop caused by the inductive
effects of the printed circuit board traces on EPROM
arrays, a 4.7 uF bulk electrolytic capacitor should be
used between VCC and GND for each of the eight
devices. The location of the capacitor should be close
to where the power supply is connected to the array.

OUTPUT DISABLE

Output is disabled when OE is at logre high. When in
output disabled all circuitry is enabled. Except the output
pins are in a high impedance state(Hi-Z).

P/N: PM0768

4

REV. 0.6, JAN. 14, 2002

MX26C4000B

Table 1: BUS OPERATIONS

Mode VPP(1) A0 A9 CE OE Q0~Q7

Read VPPL A0 A9 VIL VIL Data Out
Output Disable VPPL X X VIL VIH Hi-Z
Standby VPPL X X VIH X Hi-Z
Manufacturer Identification VPPL VIL VID(2) VIL VIL Data=C2H
Device Identification VPPL VIH VID(2) VIL VIL Data=C0H
Program VPPH A0 X VIL VIH Data In
Verify VPPH A0 X VIH VIL Data Out
Program Inhibit VPPH X X VIH VIH Hi-Z

Note:

1. Refer to DC Characteristics. When VPP=VPPL memory contents can be read but not written or erased.

2. VID is the intelligent identifier high voltage. Refer to DC Characteristics.

3. Read operations with VPP=VPPH may access array data or the intelligent identifier codes.

4. With VPP at high voltage the standby current equals ICC+IPP(standby).

5. Refer to Table 2 for vaild data-in during a write operation.

6. X can be VIL or VIH.

P/N: PM0768

5

REV. 0.6, JAN. 14, 2002

PROGRAMMING ALGORITHM FLOW CHART

NO

MX26C4000B

VCC=6.25V

VPP=12.75V

n=0

CE=100us Pulse

Verify

n=25

Failed

NO

YES

N=N+1

YES

Last

Address

YES

Check All Bytes

1st:VCC=6V

2nd:VCC=4.2V

next

Address

NO

P/N: PM0768

6

REV. 0.6, JAN. 14, 2002

ERASE ALGORITHM FLOW CHART

MX26C4000B

START

n=0

Yes

Erase:

Verify:

A9=12.5V
VCC=5V
VPP=12.5V

Chip Erase pulse

A9=VIL or VIH
VCC=5V
VPP=12.5V

Erase Verify

N=N+1

n=10

No

No

Yes

P/N: PM0768

Passed

Faild

7

REV. 0.6, JAN. 14, 2002

SWITCHING TEST CIRCUITS

MX26C4000B

DEVICE
UNDER

TEST

CL = 100 pF including jig capacitance

SWITCHING TEST WAVEFORMS

AC driving levels

AC TESTING: AC driving levels are 2.4V/0.4V for commercial grade.

1.8K ohm

CL

6.2K ohm

2.0V
TEST POINTS

0.8V

INPUT

Input pulse rise and fall times are equal to or less than 10ns.

DIODES = IN3064
OR EQUIVALENT

2.0V

0.8V
OUTPUT

+5V

P/N: PM0768

8

REV. 0.6, JAN. 14, 2002

MX26C4000B

ABSOLUTE MAXIMUM RATINGS

RATING VALUE

Ambient Operating Temperature -40oC to 85oC
Storage Temperature -65oC to 125oC
Applied Input Voltage -0.5V to 7.0V
Applied Output Voltage -0.5V to VCC + 0.5V
VCC to Ground Potential -0.5V to 7.0V
A9 & VPP -0.5V to 13.5V

NOTICE:

Stresses greater than 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 period may
affect reliability.

NOTICE:

Specifications contained within the following tables are
subject to change.

DC/AC OPERATING CONDITION FOR READ OPERATION

MX26C4000B

-90 -100 -120 -150

Operating Temperature Industrial -40°C to 85°C -40°C to 85°C -40°C to 85°C -40°C to 85°C
Vcc Power Supply 5V ± 10% 5V ± 10% 5V ± 10% 5V ± 10%

CAPACITANCE TA = 25

o

C, f = 1.0 MHz (Sampled only)

SYMBOL PARAMETER TYP. MAX. UNIT CONDITIONS

CIN Input Capacitance 6 pF VIN = 0V
COUT Output Capacitance 12 pF VOUT = 0V
CVPP VPP Capacitance 18 25 pF VPP = 0V

DC CHARACTERISTICS TA = -45°C ~ 85°C, VCC=5V±10%

SYMBOL PARAMETER MIN. MAX. UNIT CONDITIONS

VIL Input Low Voltage -0.3 0.8 V
VIH Input High Voltage 2.0 VCC + 1 V
VOL Output Low Voltage 0.4 V IOL = 2.1mA, VCC=VCC MIN
VOH Output High Voltage (TTL) 2. 4 V IOH = -0.4mA
VOH Output High Voltage (CMOS) VCC-0.7V V IOH = -0.1mA
ICC1 VCC Active Current 30 mA CE = VIL, OE=VIH, f=5MHz
ISB VCC Standby Current (CMOS) 10 0 uA CE=VCC+0.2V, VCC=VCC MAX
ISB VCC Standby Current (TTL) 1 mA CE=VIH, VCC=VCC MAX
IPP VPP Supply Current (Program) 1 0 uA CE=WE=VIL, OE=VIH
ILI Input Leakage Current -10 10 uA VIN = 0 to 5.5V
ILO Output Leakage Current -10 10 uA VOUT = 0 to 5.5V
VCC1 Fast Programming Supply Voltage 6.0 6.5 V
VPP1 Fast Programming Voltage 12.5 13.0 V

P/N: PM0768

9

REV. 0.6, JAN. 14, 2002

MX26C4000B

AC RAED CHARACTERISTICS OVER OPERATING RANGE WITH VPP=VCC

Symbol Parameter 70 9 0 100 120 150 Unit

Jeded STD MIN MAX MIN MAX MIN MAX M IN MAX MIN MAX

tAVAV TRC Read Cycle Time 70 90 1 0 0 1 20 150 ns
tELQV TCE CE Access Time 0 70 0 90 0 100 0 120 0 150 ns
tAVQV TACC Address Access Time 0 70 0 90 0 100 0 120 0 150 ns
tGLQV TOE OE Access Time 0 35 0 40 0 45 0 50 0 65 ns
tELQX TLZ CE to Output in Low Z(Note 1) 00000 ns
tEHQZ TDF Chip Disable to Output in 0 3 0 0 3 0 0 3 5 0 3 5 0 5 0 ns

High Z (Note 2)
tGLQX TOLZ OE to Output in Low Z (Note 1) 00000 ns
tGHQZ TDF Output Disable to Output in 0 30 0 3 0 0 3 5 0 3 5 0 5 0 ns

High Z (Note 1)
tAXQX TOH Output Hold from Address, 0 0 0 0 0 ns

CE or OE, change
tVCS TVCS VCC Setup Time to Valid Read 50 5 0 50 50 50 us

(Note 2)

Note:

1. Sampled: not 100% tested.

2. Guaranteed by design. not tested.

P/N: PM0768

10

REV. 0.6, JAN. 14, 2002

AC WAVEFORMS FOR READ OPERATIONS

MX26C4000B

Address

CE

OE

Data

5.0V

VCC

0V

Power-Up Standby

High Z

tVCS

Device and
Address Selection

tGLQV(tOE)

tELQV(tCE)

tELQX(tLZ)

tAVQV(tACC)

Outputs
enabled

Addresses Stable

tAVAV(tRC)

tGLQX(tOLZ)

Data Valid

Output Valid

Standby Power-Up

tEHQZ(tDF)

tGHQZ(tDF)

tAXQX(tOH)

High Z

P/N: PM0768

11

REV. 0.6, JAN. 14, 2002

AC WAVEFORMS FOR ERASE OPERATIONS

MX26C4000B

A9

Q0~Q7

VCC

VPP

CE

OE

5V

12V

Chip Erase

Valid

tAVQ

tEHtEtHE

tAVG

tGLQ

All Matrix Verif

Table 2. Erasing Mode AC Characteristics

(1)

(TA=25

°°

°C; VCC=5V

°°

±±

±0.25V; VPP=12.5V

±±

Symbol Parameter Min Ma x Unit

tA9HEL A9 High to Chip Enable Low 2 us
tAVGL Address Valid to Output Enable Low 2 us
tAVQV Address Valid to Data Valid 10 0 ns
tEHA9L Chip Enable High to A9 Low 2 us
tER First Erase Time 50 0 ms
tGLQV Output Enable Low to Data Valid 3 0 ns

(1)

VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP.

P/N: PM0768

12

REV. 0.6, JAN. 14, 2002

±±

±0.25V)

±±

AC WAVEFORMS FOR PROGRAMMING OPERATIONS

MX26C4000B

A0-A18

Q0~Q7

VCC

VPP

CE

OE

tAVPL

tQVEL

tVPHEL

tVCHEL

tEHQX

tELEH tQXGL

PROGRAM

VALID

DATA OUTDATA IN

tGLQV tGHQZ

tGHAX

VERIFY

Table 3. Programming Mode AC Characteristics

(TA=25

°°

°C; VCC=6.25V

°°

±±

±0.25V; VPP=12.5V

±±

(1)

±±

±0.25V)

±±

Symbol Alt Parameter Min Max Unit

tAVPL tAS Address Valid to Chip Enable Low 2 us
TQVEL tDS Input Valid to Chip Enable Low 2 us
TVPHEL tVPS VPP High to Chip Enable Low 2 us
TVCHEL tVCS VCC High to Chip Enable Low 2 us
TELEH tPW Chip Enable Program Pulse Wodth 9 5 1 05 us
TEHQX tD H Chip Enable High to Input Transition 2 us
TQXGL tOES Input Transition to Output Enable Low 2 us
TGLQV tOE Output Enable Low to Output Valid 10 0 ns
TGHQZ tDFP Output Enable High to Output Hi-Z 0 130 ns
TGHAX tAH Output Enable High to Address Transition 0 ns

(1)

VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP.

(2)

Sampled only, not 100% tested.

P/N: PM0768

13

REV. 0.6, JAN. 14, 2002

MX26C4000B

ORDERING INFORMATION

PLASTIC PACKAGE

PART NO. ACCESS TIME(ns) OPERATING STANDBY OPERATING PACKAGE

Current MAX.(mA) Current MAX.(uA) TEMPERATURE

MX26C4000BPC-90 9 0 30 100 0°C to 70 °C 32 Pin DIP
MX26C4000BQC-90 90 30 100 0°C to 70°C 32 Pin PLCC
MX26C4000BMC-90 90 30 100 0°C to 70 °C 32 Pin SOP
MX26C4000BTC-90 90 30 100 0°C to 70°C 32 Pin TSOP
MX26C4000BPC-10 10 0 30 100 0°C to 70°C 32 Pin DIP
MX26C4000BQC-10 100 30 100 0°C to 70°C 32 Pin PLCC
MX26C4000BMC-10 100 30 100 0°C to 70°C 32 Pin SOP
MX26C4000BTC-10 100 30 100 0°C to 70°C 32 Pin TSOP
MX26C4000BPC-12 12 0 30 100 0°C to 70°C 32 Pin DIP
MX26C4000BQC-12 120 30 100 0°C to 70°C 32 Pin PLCC
MX26C4000BMC-12 120 30 100 0°C to 70°C 32 Pin SOP
MX26C4000BTC-12 120 30 100 0°C to 70°C 32 Pin TSOP
MX26C4000BPC-15 15 0 30 100 0°C to 70°C 32 Pin DIP
MX26C4000BQC-15 150 30 100 0°C to 70°C 32 Pin PLCC
MX26C4000BMC-15 150 30 100 0°C to 70°C 32 Pin SOP
MX26C4000BTC-15 150 30 100 0°C to 70°C 32 Pin TSOP
MX26C4000BPI-90 9 0 30 10 0 -40°C to 85°C 32 Pin DIP
MX26C4000BQI-90 9 0 30 100 -40°C to 85°C 32 Pin PLCC
MX26C4000BMI-90 90 30 100 -40°C to 85°C 32 Pin SOP
MX26C4000BTI-90 9 0 30 10 0 -40°C to 85°C 32 Pin TSOP
MX26C4000BPI-10 1 00 30 100 -40°C to 85°C 32 Pin DIP
MX26C4000BQI-10 10 0 30 100 -40°C to 85°C 32 Pin PLCC
MX26C4000BMI-10 100 3 0 100 -40°C to 85°C 32 Pin SOP
MX26C4000BTI-10 1 0 0 30 100 -40°C to 85°C 32 Pin TSOP
MX26C4000BPI-12 1 20 30 100 -40°C to 85°C 32 Pin DIP
MX26C4000BQI-12 12 0 30 100 -40°C to 85°C 32 Pin PLCC
MX26C4000BMI-12 120 3 0 100 -40°C to 85°C 32 Pin SOP
MX26C4000BTI-12 1 2 0 30 100 -40°C to 85°C 32 Pin TSOP
MX26C4000BPI-15 1 50 30 100 -40°C to 85°C 32 Pin DIP
MX26C4000BQI-15 15 0 30 100 -40°C to 85°C 32 Pin PLCC
MX26C4000BMI-15 150 3 0 100 -40°C to 85°C 32 Pin SOP
MX26C4000BTI-15 1 5 0 30 100 -40°C to 85°C 32 Pin TSOP

P/N: PM0768

14

REV. 0.6, JAN. 14, 2002

PACKAGE INFORMATION

32-PIN PLASTIC DIP(600 mil)

MX26C4000B

P/N: PM0768

15

REV. 0.6, JAN. 14, 2002

32-PIN PLASTIC LEADED CHIP CARRIER (PLCC)

MX26C4000B

P/N: PM0768

16

REV. 0.6, JAN. 14, 2002

32-PIN PLASTIC TSOP

MX26C4000B

P/N: PM0768

17

REV. 0.6, JAN. 14, 2002

32-PIN PLASTIC SOP (450 mil)

MX26C4000B

P/N: PM0768

18

REV. 0.6, JAN. 14, 2002

MX26C4000B

REVISION HISTORY

Revision No. Description Page Date

0.1 To add erase/program cycle P1 DEC/18/2000
Change title from MX26C4000A to MX26C4000B All

0.2 To added 32SOP/TSOP types package and access time 150ns P1,10,11,16,18 MAR/27/2001
Modify device ID old 32H-->New C0H P5
Modify read ID method P4,5,6,12
Modify erase/program cycle from 100 to 50 P1
Modify VCC Standby Current(TTL) from 1mA to 1.5mA P 10

0.3 To added VCC1 & VPP1 to DC Characteristics Table P1 0 APR/23/2001
Modify Package Information P17~20

0.4 To added chip erase time / chip program time P1 JUL/04/2001
Modify Package Information P17~20

0.5 Modify the Programming Operations Timing Waveforms P15 OCT/04/2001

0.6 1.Cancel the command mode P12 JAN/14/2002

2.Modify the cycle time from 50-->100 P1

3.Modify the erase/program operation timing waveform and P6,7,12,13
flowchart

P/N: PM0768

19

REV. 0.6, JAN. 14, 2002

MX26C4000B

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