Contents

Features .......................................................................................................... 1

Pin Assignment................................................................................................ 1

Pin Functions................................................................................................... 1

Block Diagram ................................................................................................. 2

Instruction Set ................................................................................................. 2

Absolute Maximum Ratings ............................................................................ 2

Recommended Operating Conditions.............................................................. 3

Pin Capacitance ............................................................................................ 3

Endurance ...................................................................................................... 3

DC Electrical Characteristics .......................................................................... 4

AC Electrical Characteristics ........................................................................... 5

Operation......................................................................................................... 6

Receiving a Start-bit ........................................................................................ 13

Three-wire Interface ........................................................................................ 13

Characteristics................................................................................................. 14

Ordering Information ....................................................................................... 19

Dimensions...................................................................................................... 20

Seiko Instruments Inc.

The S-29XX0A Series is high speed, low power 1K/2K/4K-bit E

PROM

with a wide operating voltage range. They are organized as 64-word

16-bit, 128-word

16-bit and 256-word

16-bit, respectively. Each is

capable of sequential read, at which time addresses are automatically

incremented in 16-bit blocks. The instruction code is compatible with the

NM93CSXX Series.

Pin Assignment

Figure 1

Pin Functions

Table 1

Pin Number

Name

DIP

SOP1

SOP2

Function

Chip select input

Serial clock input

Serial data input

Serial data output

GND

Ground

TEST

Test pin (normally kept open)

(can be connected to GND or Vcc)

No Connection

Power supply

CMOS SERIAL E

PROM

S-29XX0A Series

8-pin SOP1

Top view

TEST

GND

TEST

GND

8-pin DIP

Top view

8-pin SOP2

Top view

TEST

GND

S-29130ADP

S-29220ADP

S-29230ADP

S-29330ADP

S-29130AFJ

S-29220AFJ

S-29230AFJ

S-29330AFJ

S-29130ADFJ

S-29220ADFJ

S-29330ADFJ

differs depending on the package type :

A : A type, (blank) : B type
See

Dimensions.

Features

Low power consumption

Standby

: 1.0

A Max.

(VCC=6.5 V)

Operating : 0.8 mA Max. (VCC=5.5 V)

: 0.4 mA Max. (VCC=2.5 V)

Wide operating voltage range

Write

: 2.5 to 6.5 V

Read

: 1.8 to 6.5 V

Sequential read capable

Endurance : 10

cycles/word

Data retention : 10 years

S-29130A : 1K bits NM93CS46 instruction code compatible

S-29220A : 2K bits NM93CS56 instruction code compatible

S-29230A : 2K bits CAT35C102 instruction code compatible

S-29330A : 4K bits NM93CS66 instruction code compatible

Rev.1.1

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Block Diagram

Instruction Set

Table 2

Address

Instruction

Start

Bit

code

S-29130A

S-29230A

S-29220A

S-29330A

Data

READ (Read data)

to A

to D

Output*

WRITE(Write data)

to A

to D

Input

ERASE

(Erase data)

to A

WRAL (Write all)

01xxxx

01xxxxx

01xxxxxx

to D

Input

ERAL (Erase all)

10xxxx

10xxxxx

10xxxxxx

EWEN (Program enable)

11xxxx

11xxxxx

11xxxxxx

EWDS (Program disable)

00xxxx

00xxxxx

00xxxxxx

x : Doesn't matter.

* : Addresses are continuously incremented.

Absolute Maximum Ratings

Parameter

Symbol

Ratings

Unit

Power supply voltage

-0.3 to +7.0

Input voltage

-0.3 to V

+0.3

Output voltage

OUT

-0.3 to V

Storage temperature under bias

bias

-50 to +95

°C

Storage temperature

stg

-65 to +150

°C

Figure 2

Memory array

Data register

Address

decoder

Mode decode

logic

Clock generator

Output buffer

GND

Table 3

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Recommended Operating Conditions

Table

Parameter

Symbol

Conditions

Min.

Typ.

Max.

Unit

Read Operation

Write Enable/Disable

1.8

6.5

Power supply voltage

Write Operation

2.5

6.5

High level input voltage

=5.5 to 6.5 V

=4.5 to 5.5 V

=2.7 to 4.5 V

=1.8 to 2.7 V

0.8

Vcc

2.0

0.8

Vcc

0.8

Vcc

=5.5 to 6.5 V

0.0

0.2

Vcc

=4.5 to 5.5 V

0.0

0.8

=2.7 to 4.5 V

0.0

0.2

Vcc

Low level input voltage

=1.8 to 2.7 V

0.0

0.15

Vcc

Operating temperature

opr

-40

+85

°C

Pin Capacitance

Table 5

(Ta=25°C, f=1.0 MHz, V

=5 V)

Parameter

Symbol

Conditions

Min.

Typ.

Max.

Unit

Input Capacitance

= 0 V

Output Capacitance

OUT

= 0 V

Endurance

Table 6

Parameter

Symbol

Min.

Typ.

Max.

Unit

Endurance

cycles/word

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

DC Electrical Characteristics

Table

=5.5 V to 6.5

=4.5 V to 5.5

=2.5 to 4.5

VCC=1.8 to 2.5 V

Parameter

Smbl

Conditions

Min.

Typ.

Max.

Min.

Typ.

Max.

Min.

Typ.

Max.

Min.

Typ.

Max.

Unit

Current

consumption

(READ)

CC1

DO unloaded

1.0

0.8

0.6

0.4

Current

consumption

(PROGRAM)

CC2

DO unloaded

2.5

2.0

1.5

=4.5 V to 6.5 V

=2.5 to 4.5 V

=1.8 to 2.5 V

Parameter

Smbl

Conditions

Min.

Typ. Max.

Min.

Typ. Max.

Min.

Typ. Max.

Unit

Standby current

consumption

CS=GND DO=Open

Connected to V

or GND

1.0

0.6

0.4

Input leakage

current

=GND to V

0.1

1.0

0.1

1.0

0.1

1.0

Output leakage

current

OUT

=GND to V

0.1

1.0

0.1

1.0

0.1

1.0

=2.1 mA

0.45

Low level output

voltage

=100

0.1

=-400

2.4

=-100

0.7

High level output

voltage

=-10

0.7

0.3

Write enable latch

data hold voltage

Only when write disable

mode

1.5

Table

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

AC Electrical Characteristics

Table 9

Input pulse voltage

0.1

to 0.9

Output reference voltage

0.5

Output load

100pF

Table 10

=4.5 to 6.5V

=2.5 to 4.5 V

=1.8 to 2.5V

Parameter

Smbl

Min. Typ. Max. Min. Typ. Max. Min.

Typ. Max.

Unit

CS setup time

CSS

0.2

0.4

1.0

CS hold time

CSH

0.2

0.4

1.0

CS deselect time

CDS

0.2

0.4

Data setup time

0.2

0.4

0.8

Data hold time

0.2

0.4

0.8

Output delay

0.4

1.0

2.0

Clock frequency

2.0

0.5

0.25 MHz

Clock pulse width

SKH,

SKL

0.25

1.0

2.0

Output disable time

HZ1

HZ2

0.15

0.5

1.0

Output enable time

0.15

0.5

1.0

Programming time

4.0

10.0

4.0

10.0

Figure 3

Timing Chart

SKH

CDS

CSS

Valid data

SKL

HZ2

CSH

HZ1

Hi-Z

(READ)

(VERIFY)

Hi-Z

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Operation

Instructions (in the order of start-bit, instruction, address, and data) are latched to DI in synchronization with the rising
edge of SK after CS goes high. A start-bit can only be recognized when the high of DI is latched to the rising edge of
SK when CS goes from low to high, it is impossible for it to be recognized as long as DI is low, even if there are SK
pulses after CS goes high. Any SK pulses input while DI is low are called dummy clocks." Dummy clocks can be
used to adjust the number of clock cycles needed by the serial IC to match those sent out by the CPU. Instruction
input finishes when CS goes low, where it must be between commands during t

CDS

All input, including DI and SK signals, is ignored while CS is low, which is stand-by mode.

Read

The READ instruction reads data from a specified address. After A0 is latched at the rising edge of SK, DO output
changes from a high-impedance state (Hi-Z) to low level output. Data is continuously output in synchronization with
the rise of SK.

When all of the data (D0) in the specified address has been read, the data in the next address can be read with the
input of another SK clock. Thus, it is possible for all of the data addresses to be read through the continuous input of
SK clocks as long as CS is high.

The last address (An ··· A1 A0 = 1 ··· 11) rolls over to the top address (An ··· A0 = 0 ··· 00).

Figure 4

Read Timing (S-29130A)

Figure 5

Read Timing

(S-29230A)

Hi-Z

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Figure 6

Read Timing

(S-29220A)

Figure 7

Read Timing

(S-29330A)

WRITE (WRITE, ERASE, WRAL, ERAL)

There are four write instructions, WRITE, ERASE, WRAL, and ERAL. Each automatically begins writing to the non-
volatile memory when CS goes low at the completion of the specified clock input.

The write operation is completed in 10 ms (t

Max.), and the typical write period is less than 5 ms. In the S-29XX0A

Series, it is easy to VERIFY the completion of the write operation in order to minimize the write cycle by setting CS to
high and checking the DO pin, which is low during the write operation and high after its completion. This VERIFY
procedure can be executed over and over again.

Because all SK and DI inputs are ignored during the write operation, any input of instruction will also be disregarded.
When DO outputs high after completion of the write operation or if it is in the high-impedence state (Hi-Z), the input of
instructions is available. Even if the DO pin remains high, it will enter the high-impedence state upon the recognition
of a high of DI (start-bit) attached to the rising edge of an SK pulse. (see Figure 3).

DI input should be low during the VERIFY procedure.

Hi-Z

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

2.1 WRITE

This instruction writes 16-bit data to a specified address.

After changing CS to high, input a start-bit, op-code (WRITE), address, and 16-bit data. If there is a data overflow of
more than 16 bits, only the last 16-bits of the data is considered valid. Changing CS to low will start the WRITE
operation. It is not necessary to make the data "1" before initiating the WRITE operation.

Figure 8

WRITE Timing (S-29130A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

D15

Figure 9

WRITE Timing (S-29230A)

Hi-Z

CDS

busy

Hi-Z

VERIFY

HZ1

ready

D15

Figure 10

WRITE Timing (S-29220A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

A0 D15

Figure 11

WRITE Timing (S-29330A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

D15

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

2.2 ERASE

This command erases 16-bit data in a specified address.

After changing CS to high, input a start-bit, op-code (ERASE), and address. It is not necessary to input data.
Changing CS to low will start the ERASE operation, which changes every bit of the 16 bit data to "1."

Figure 12

ERASE Timing (S-29130A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

Figure 13

ERASE Timing (S-29230A)

Hi-Z

CDS

busy

Hi-Z

VERIFY

HZ1

ready

Figure 14

ERASE Timing (S-29220A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

Figure 15

ERASE Timing (S-29330A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

2.3 WRAL

This instruction writes the same 16-bit data into every address.

After changing CS to high, input a start-bit, op-code (WRAL), address (optional), and 16-bit data. If there is a data
overflow of more than 16 bits, only the last 16-bits of the data is considered valid. Changing CS to low will start the
WRAL operation. It is not necessary to make the data "1" before initiating the WRAL operation.

Figure 16

WRAL Timing (S-29130A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

4Xs

D15

Figure 17

WRAL Timing (S-29230A)

Hi-Z

5Xs

CDS

busy

Hi-Z

HZ1

ready

D15

VERIFY

Figure 18

WRAL Timing (S-29220A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

6Xs

D15

Figure 19

WRAL Timing (S-29330A)

CDS

busy

Hi-Z

VERIFY

Hi-Z

HZ1

ready

6Xs

D15

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

2.4 ERAL

This instruction erases the data in every address.
After changing CS to high, input a start-bit, op-code (ERAL), and address (optional). It is not necessary to input data.
Changing CS to low will start the ERAL operation, which changes every bit of data to "1."

Figure 20

ERAL Timing (S-29130A)

CDS

4Xs

Hi-Z

HZ1

ready

busy

VERIFY

Figure 21

ERAL Timing (S-29230A)

5Xs

CDS

Hi-Z

HZ1

ready

busy

VERIFY

Figure 22

ERAL Timing (S-29220A)

CDS

6Xs

Hi-Z

HZ1

ready

busy

VERIFY

Figure 23

ERAL Timing (S-29330A)

CDS

6Xs

Hi-Z

HZ1

ready

busy

VERIFY

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Write enable (EWEN) and Write disable (EWDS)

The EWEN instruction puts the S-29XX0A Series into write enable mode, which accepts WRITE, ERASE, WRAL,
and ERAL instructions. The EWDS instruction puts the S-29XX0A Series into write disable mode, which refuses
WRITE, ERASE, WRAL, and ERAL instructions.

The S-29XX0A Series powers on in write disable mode, which protects data against unexpected, erroneous write
operations caused by noise and/or CPU malfunctions. It should be kept in write disable mode except when
performing write operations.

Figure 25

EWEN/EWDS Timing (S-29230A)

5Xs

11=EWEN
00=EWDS

Figure 26

EWEN/EWDS Timing (S-29220A)

6Xs

11=EWEN
00=EWDS

Figure 27

EWEN/EWDS Timing (S-29330A)

6Xs

11=EWEN
00=EWDS

Figure 24

EWEN/EWDS Timing (S-29130A)

4Xs

11=EWEN
00=EWDS

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Receiving a Start-Bit

Both the recognition of a start-bit and the VERIFY procedure occur when CS is " high ". Therefore, only after a write
operation, in order to accept the next command by having CS go high, will the DO pin switch from a state of high-
impedence to a state of data output; but if it recognizes a start-bit, the DO pin returns to a state of high-impedence.

Three-wire Interface (DI-DO direct connection)

Although the normal configuration of a serial interface is a 4-wire interface to CS, SK, DI, and DO, a 3-wire interface
is also a possibility by connecting DI and DO. However, since there is a possibility that the DO output from the serial
memory IC will interfere with the data output from the CPU with a 3-wire interface, install a resistor between DI and
DO in order to give preference to data output from the CPU to DI (See Figure 28).

SIO

Figure 28

CPU

S-29XX0A

R : 10~100 k

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Characteristics

1. DC Characteristics

Ta (°C)

0.4

0.2

=5.5 V

=2 MHz

DATA=0101

-40

CC1

(mA)

Ta (°C)

0.4

0.2

=3.3 V

=500 KHz

DATA=0101

-40

CC1

(mA)

Ta (°C)

0.4

0.2

=1.8 V

=10 KHz

DATA=0101

-40

CC1

(mA)

0.4

0.2

5 6

Ta=25°C
f

=1 MHz, 500 KHz

DATA=0101

(V)

0.4

0.2

5 6

Ta=25°C
f

=100 KHz, 10 KHz

DATA=0101

(V)

0.4

0.2

CC1

(mA)

=5.0 V

Ta=25°C

1M 2M

10K 100K

(Hz)

Ta (°C)

1.0

0.5

=5.5 V

-40

CC2

(mA)

Ta (°C)

1.0

0.5

=3.3 V

-40

CC2

(mA)

CC1

(mA)

CC1

(mA)

100KHZ

10KH

1MHZ

500KH

1.1 Current consumption (READ) I

CC1

Ambient temperature Ta

1.2 Current consumption (READ) I

CC1

Ambient temperature Ta

1.3 Current consumption (READ) I

CC1

Ambient temperature Ta

1.4 Current consumption (READ) I

CC1

Power supply voltage V

1.5 Current consumption (READ) I

CC1

Power supply voltage V

1.6 Current consumption (READ) I

CC1

Clock frequency f

1.7 Current consumption (PROGRAM) I

CC2

Ambient temperature Ta

1.8 Current consumption (PROGRAM) I

CC2

Ambient temperature Ta

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Ta (°C)

1.0

0.5

=5.5 V

DO=0 V

-40

(

Ta (°C)

1.0

0.5

=5.5 V

DO=5.5 V

-40

(

1.0

0.5

5 6

Ta=25°C

(V)

CC2

(mA)

-6

-7

-8

-9

-10

=5.5 V

-11

Ta (°C)

-40

Ta (°C)

1.0

0.5

=5.5 V

CS, SK, DI,
TEST=0 V

-40

(

Ta (°C)

1.0

0.5

-40

=5.5 V

CS, SK, DI,
TEST=5.5 V

(A)

(

Ta (°C)

4.6

4.4

=4.5 V

=-400

-40

(V)

4.2

Ta (°C)

2.7

2.6

=2.7 V

=-100

-40

(V)

2.5

1.9 Current consumption (PROGRAM) I

CC2

Power supply voltage V

1.10 Standby current consumption I

Ambient temperature Ta

1.13 Output leakage current I

Ambient temperature Ta

1.14 Output leakage current I

Ambient temperature Ta

1.15 High level output voltage V

Ambient temperature Ta

1.16 High level output voltage V

Ambient temperature Ta

1.11 Input leakage current I

Ambient temperature Ta

1.12 Input leakage current I

Ambient temperature Ta

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Ta (°C)

2.5

2.4

=2.5 V

=-100

-40

(V)

2.3

Ta (°C)

0.3

0.2

=4.5 V

=2.1 mA

-40

(V)

0.1

Ta (°C)

0.03

0.02

=1.8 V

=100

-40

(V)

0.01

Ta (°C)

-10.0

-5.0

=4.5 V

=2.4 V

-40

(mA)

Ta (°C)

-4

-2

=2.7 V

=2.0 V

-40

(mA)

Ta (°C)

-4

-2

=2.5 V

=1.8 V

-40

(mA)

Ta (°C)

=4.5 V

=0.45 V

-40

(mA)

Ta (°C)

1.0

0.5

=1.8 V

=0.1 V

-40

(mA)

1.17 High level output voltage V

Ambient temperature Ta

1.18 Low level output voltage V

Ambient temperature Ta

1.19 Low level output voltage V

Ambient temperature Ta

1.20 High level output current I

Ambient temperature Ta

1.21 High level output current I

Ambient temperature Ta

1.22 High level output current I

Ambient temperature Ta

1.23 Low level output current I

Ambient temperature Ta

1.24 Low level output current I

Ambient temperature Ta

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

2. AC Characteristics

10K

Ta=25°C

(V)

max

(Hz)

5 6

Ta=25°C

(V)

(ms)

100K

Ta (°C)

=5.0 V

-40

(ms)

Ta (°C)

=3.0 V

-40

(ms)

Ta (°C)

0.6

0.4

=2.7 V

-40

0.2

(

Ta (°C)

0.3

0.2

=4.5 V

-40

0.1

(

Ta (°C)

0.6

0.4

=1.8 V

-40

0.2

(

2.7 Data output delay time t

Ambient temperature Ta

2.6 Data output delay time t

Ambient temperature Ta

2.5 Data output delay time t

Ambient temperature Ta

2.3 Program time t

Ambient temperature Ta

2.4 Program time t

Ambient temperature Ta

2.1 Maximum operating frequency fmax

Power supply voltage V

2.2 Program time t

Power supply voltage V

CMOS SERIAL E

PROM

S-29XX0A Series

Seiko Instruments Inc.

Ordering Information

1. 8-pin DIP

There are two types of packages : A or B.

8-pin SOP

There are two types of packages : A or B.

S-29XX0A XXX

Package type

: A type

(blank)

: B type

Package

: DIP

(S-29130A, S-29220A, S-29230A, S-29330A)

: SOP1

(S-29130A, S-29220A, S-29230A, S-29330A)

DFJ

: SOP2

(S-29130A, S-29220A, S-29330A)

Product name

S-29130A

: 1K-bit

S-29220A

: 2K-bit

S-29230A

: 2K-bit

S-29330A

: 4K-bit

See

Assignment,

(Figure 1)

A type

S-29130ADPA
S-29220ADPA
S-29230ADPA
S-29330ADPA

B type

S-29130ADP
S-29220ADP
S-29230ADP
S-29330ADP

A type

<SOP1>

S-29130AFJA
S-29220AFJA
S-29230AFJA
S-29330AFJA

<SOP2>

S-29130ADFJA
S-29220ADFJA
S-29330ADFJA

* SOP1 and SOP2 show

Difference of the Pin
Assignment.
See Figure 1.

B type

<SOP1>

S-29130AFJ
S-29220AFJ
S-29230AFJ
S-29330AFJ

<SOP2>

S-29130ADFJ
S-29220ADFJ
S-29330ADFJ

* SOP1 and SOP2 show

Difference of the Pin
Assignment.
See Figure 1.

0.42±0.09

1.27

0.22±0.03

4.90(5.00max)

8-pin SOP

FJ008-B 990531

ø2.0±0.05

ø1.55±0.05

1.75±0.1

4.0±0.1(10 pitches 40.0±0.2)

0.3±0.05

2.1±0.1

8.0±0.1

6.7±0.1

2.0±0.05

5 max.

3 max.

Feed direction

12.0±0.2

5.5±0.05

5.55±0.1

135

2±0.5

13.5±0.5

2±0.5

ø13±0.2

ø21±0.8

60°

ø80±1

ø330±2

Winding core

Unit:mm

Dimensions

Taping Specifications

Reel Specifications

B type

The information herein is subject to change without notice.

Seiko Instruments Inc. is not responsible for any problems caused by circuits or other diagrams

described herein whose industrial properties, patents or other rights belong to third parties. The

application circuit examples explain typical applications of the products, and do not guarantee any

mass-production design.

When the products described herein include Strategic Products (or Service) subject to regulations,

they should not be exported without authorization from the appropriate governmental authorities.

The products described herein cannot be used as part of any device or equipment which influences

the human body, such as physical exercise equipment, medical equipment, security system, gas

equipment, vehicle or airplane, without prior written permission of Seiko Instruments Inc.

Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: S-29130ADFJA

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: S-29130ADFJA