S-24CS01AFJ-TB-G Seiko Instruments, S-24CS01AFJ-TB-G Datasheet

IC EEPROM 1KBIT 400KHZ 8SOP

S-24CS01AFJ-TB-G

Manufacturer Part Number
S-24CS01AFJ-TB-G
Description
IC EEPROM 1KBIT 400KHZ 8SOP
Manufacturer
Seiko Instruments
Datasheet

Specifications of S-24CS01AFJ-TB-G

Format - Memory
EEPROMs - Serial
Memory Type
EEPROM
Memory Size
1K (128 x 8)
Speed
400kHz
Interface
I²C, 2-Wire Serial
Voltage - Supply
1.8 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Package / Case
8-SOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
S-24CS01AFJ-TB-G
Manufacturer:
SEIKO
Quantity:
576
Part Number:
S-24CS01AFJ-TB-G
Manufacturer:
SEIKO
Quantity:
2 812
Caution This product is intended to use in general electronic devices such as consumer electronics,
Rev.4.5
• Low power consumption Standby : 2.0 µA Max. (V
• Operating voltage range Read :
• Page write :
• Sequential read
• Operating Frequency :
• Write disable function when power supply voltage is low
• Endurance:
• Data retention:
• S-24CS01A :
• S-24CS02A :
• S-24CS04A :
• S-24CS08A :
• High-temperature operation : +105°C Max. supported
• Write protection :
• Lead-free product
Features
Packages
2-WIRE CMOS SERIAL E
8-Pin DIP
8-Pin SOP(JEDEC)
8-Pin TSSOP
SNT-8A
Package name
office equipment, and communications devices. Before using the product in medical
equipment or automobile equipment including car audio, keyless entry and engine control
unit, contact to SII is indispensable.
_00
Read :
Write :
8 bytes / page (S-24CS01A/02A)
16 bytes / page (S-24CS04A/08A)
400 kHz (V
10
10
3 × 10
*1. For each address (Word: 8 bits)
10 years (after rewriting 10
1 Kbit
2 Kbit
4 Kbit
8 Kbit
100%
7
6
(Only S-24CS0xAFJ-TBH-G, S-24CS0xAFT-TBH-G)
cycles/word
cycles/word
DP008-F
PH008-A
Package
FT008-A
FJ008-A
5
cycles/word
2
0.8 mA Max. (V
1.8 to 5.5 V (at −40 to +85°C)
2.55 to 5.5 V (at −40 to +85°C)
CC
PROM
= 2.55 to 5.5 V, at −40 to +85°C)
Seiko Instruments Inc.
*1
*1
(at +25°C) write capable,
(at +85°C)
*1
(at +105°C)
PH008-A
FJ008-D
FT008-E
CC
Tape
The S-24CS01A/02A/04A/08A is a 2-wired, low
power and wide range operation 1-Kbit, 2-Kbit, 4-Kbit
and 8-Kbit E
256 words × 8 bits, 512 words × 8 bits and 1024
words × 8 bits in each.
Page write and sequential read are available.
CC
6
=5.5 V)
cycles/word at +85°C)
=5.5 V)
Drawing code
S-24CS01A/02A/04A/08A
2
PROM organized as 128 words × 8 bits,
PH008-A
FT008-E
FJ008-D
Reel
PH008-A
Land
1

Related parts for S-24CS01AFJ-TB-G

S-24CS01AFJ-TB-G Summary of contents

Page 1

... SOP(JEDEC) 8-Pin TSSOP SNT-8A Caution This product is intended to use in general electronic devices such as consumer electronics, office equipment, and communications devices. Before using the product in medical equipment or automobile equipment including car audio, keyless entry and engine control unit, contact to SII is indispensable. ...

Page 2

... DIP Top view GND Figure 1 S-24CS01ADP-G S-24CS02ADP-G S-24CS04ADP-G S-24CS08ADP-1G 8-Pin SOP(JEDEC) Top view GND Figure 2 S-24CS01AFJ-TB-G S-24CS01AFJ-TBH-G S-24CS02AFJ-TB-G S-24CS02AFJ-TBH-G S-24CS04AFJ-TB-G S-24CS04AFJ-TBH-G S-24CS08AFJ-TB-1G S-24CS08AFJ-TBH- PROM Pin No. Symbol 1 A0 VCC SCL 4 GND 5 SDA SDA 6 SCL VCC *1. Connect to GND or V Remark See Dimensions for details of the package drawings. ...

Page 3

... Serial data input / output 6 SCL Serial clock input Write protection input VCC Power supply *1. Connect to GND or V Remark See Dimensions for details of the package drawings. Seiko Instruments Inc. 2-WIRE CMOS SERIAL E S-24CS01A/02A/04A/08A Table 3 Description Connected Protection valid CC Connected to GND: Protection invalid ...

Page 4

... CMOS SERIAL E S-24CS01A/02A/04A/08A Block diagram SCL Start / Stop Detector SDA Device Address Comparator *1. This pin is not available for S-24CS08A. *2. This pin is not available for S-24CS04A/08A PROM Serial Clock Controller LOAD COMP LOAD INC Address Counter Y Decoder D OUT Figure 5 Seiko Instruments Inc. ...

Page 5

... Power supply voltage Input voltage Output voltage Operating ambient temperature Storage temperature Caution The absolute maximum ratings are rated values exceeding which the product could suffer physical damage. These values must therefore not be exceeded under any conditions. Recommended Operating Conditions Item ...

Page 6

... CMOS SERIAL E S-24CS01A/02A/04A/08A DC Electrical Characteristics Item Symbol Conditions Current consumption I  CC1 (READ) Current consumption I  CC2 (WRITE) *1. V =2. Write CC Item Symbol Standby current I SB consumption Input leakage current I LI Output leakage current I LO Low level output voltage V ...

Page 7

... Rev.4.5 _00 AC Electrical Characteristics Table 11 Measurement Conditions Input pulse voltage Input pulse rising / falling time Output judgment voltage Output load Item Symbol SCL clock frequency f SCL SCL clock time “L” t LOW SCL clock time “H” t HIGH SDA output delay time ...

Page 8

... CMOS SERIAL E S-24CS01A/02A/04A/08A Item Write time SCL SDA D0 Write data 8 2 PROM Table 13 −40 to +85°C Symbol V =2. Min. Typ. t — 4.0 WR Stop Condition Acknowledge Figure 8 Write Cycle Timing Seiko Instruments Inc. +85 to +105°C V =4 Max. Min. ...

Page 9

... The SDA line is usually pulled up to the V devices. 3. SCL (Serial Clock Input) Pin The SCL pin is used for serial clock input. Since signals are processed at the rising or falling edge of the SCL clock input signal, attention should be paid to the rising time and falling time to conform to the specifications. ...

Page 10

... Every operation begins from a start condition. 2. Stop Condition Stop is identified by a low to high transition of the SDA line while the SCL line is stable at high. When a device receives a stop condition during a read sequence, the read operation is interrupted, and the device enters standby mode. ...

Page 11

... SDA 4. Acknowledge The unit of data transmission is 8 bits. During the 9th clock cycle period the receiver on the bus pulls down the SDA line to acknowledge the receipt of the 8-bit data. When an internal write cycle is in progress, the device does not generate an acknowledge. ...

Page 12

... The successive 1 bit (P0) is used to define a page address and choose the two 256-byte memory blocks (Address 000h to 0FFh and 100h to 1FFh). In S-24CS08A, successive 1 bit is called the “Slave Addrdess”. This 1 bit is used to identify a device on the system bus and is compared with the predetermined value which is defined by the address input pin (A2). ...

Page 13

... Write 6. 1 Byte Write When the master sends a 7-bit device address and a 1-bit read / write instruction code set to "0", following a start condition, the E address and responds with an acknowledge. After the E with an acknowledge, it receives a stop condition and that initiates the write cycle at the addressed memory ...

Page 14

... In S-24CS04A, the lower 4 bits of the word address are automatically incremented every time when the 2 E PROM receives 8-bit write data. If the size of the write data exceeds 16 bytes, the upper 4 bits of the word address and page address (P0) remain unchanged, and the lower 4 bits are rolled over and previously received data will be overwritten. ...

Page 15

... When the WP pin is connected to the GND, the write protection is invalid, and write operation in all memory area is available. Fix the level of the WP pin from the rising edge of SCL for loading the last write data (D0) until the end of the write time (10 ms max.). If the WP pin changes during this time, the address data being written at this time is not guaranteed ...

Page 16

... In the read operation the memory address counter in the E falling edge of the SCL clock for the 8th bit of the output data. In the write operation, on the other hand, the upper bits of the memory address (the upper bits of the word address and page address) unchanged and are not incremented at the falling edge of the SCL clock for the 8th bit of the received data ...

Page 17

... When the E PROM receives a 7-bit device address and a 1-bit read / write instruction code set to "0" following a start condition, it responds with an acknowledge. The E address and responds with an acknowledge. The memory address is loaded to the address counter in the 2 E PROM by these operations. Reception of write data does not follow in a dummy write whereas reception of write data follows in a byte write and in a page write ...

Page 18

... PROM incremented and makes it possible to read data in succession. This is called "Sequential Read". The master device outputs stop condition not an acknowledge , the reading of E Data can be read in succession in the sequential read mode. When the memory address counter reaches the last word address, it rolls over to the first memory address. ...

Page 19

... Address Increment Timing The timing for the automatic address increment is the falling edge of the SCL clock for the 8th bit of the read data in read operation and the falling edge of the SCL clock for the 8th bit of the received data in write operation. ...

Page 20

... PROM from malfunction due to an undefined output (high impedance) from the tri- state pin when the microprocessor is reset when the voltage drops. 2. I/O pin equivalent circuit The I/O pins of this IC do not include pull-up and pull-down resistors. The SDA pin is an open-drain output. The following shows the equivalent circuits. SCL ...

Page 21

... Rev.4.5 _00 WP A0, A1, A2 2-WIRE CMOS SERIAL E Figure 24 WP Pin Figure 25 A0, A1, A2 Pin Seiko Instruments Inc. 2 PROM S-24CS01A/02A/04A/08A 21 ...

Page 22

... For example, even if a reset signal is input to the microprocessor, the internal circuit of the E reset as long as the stop condition is not input to the E same status and cannot shift to the next operation. This symptom applies to the case when only the microprocessor is reset when the power supply voltage drops. With this status, if the power supply voltage ...

Page 23

... Raising power supply voltage Raise the power supply voltage, starting at 0.2 V maximum, so that the voltage reaches the power supply voltage to be used within the time defined by t For example, when the power supply voltage to be used is 5 The power supply voltage must be raised within 200 ms ...

Page 24

... E on-clear operation conditions PROM, refer Raising power supply voltage . If the power-on-clear circuit does not operate, match the phase (reset) so that the internal E normally reset. The statuses of the E when phase is matched (reset) are the same PROM 5 ...

Page 25

... Wait for the initialization sequence to end 2 The E PROM executes initialization during the time that the supply voltage is increasing to its normal value. All instructions must wait until after initialization. The relationship between the initialization time (t ) and rise time ( shown in Figure 29 . ...

Page 26

... SDA pin and SCL pin noise suppression time The S-24CS01A/02A/04A/08A includes a built-in low-pass filter to suppress noise at the SDA and SCL pins. This means that if the power supply voltage is 5.0 V, noise with a pulse width of 160 ns or less can be suppressed. The guaranteed for details, refer to noise suppression time (t ...

Page 27

... When write data is input more than defined page size at page write operation, for example, S-24CS04A (which can be executed 16-byte page write) is received data more than 17 byte, 8-bit data of the 17th byte is over written to the first byte in the same page. Data over the capacity of page address cannot be written. 10. Trap: Severe environments Absolute maximum ratings: Do not operate these ICs in excess of the absolute maximum ratings (as listed on the data sheet) ...

Page 28

... Do not apply an electrostatic discharge to this IC that exceeds the performance ratings of the built-in electrostatic protection circuit. ● SII claims no responsibility for any and all disputes arising out connection with any infringement of the products including this IC upon patents owned by a third party. ...

Page 29

... Ta ( ° Current consumption (READ) I  Ambient temperature (Ta) VCC= 1 =100 kHz SCL DATA=0101 300 I CC1 ( µ A) 200 100 0 - ° Current consumption (READ) I  Power supply voltage V Ta=25 ° =400 kHz SCL DATA=0101 300 I CC1 ( µ A) 200 100 ( Current consumption (READ) I CC1 I CC1 ( µ ...

Page 30

... V =2 1.0 I CC2 (mA) 0 ° Standby current consumption I  Ambient temperature (Ta µ A) 1 ° PROM 1. 8 Current consumption (PROGRAM) I CC2 I CC2 (mA Current consumption (PROGRAM) I CC2 I CC2 (mA Input leakage current µ Seiko Instruments Inc.  Ambient temperature (Ta 1 ° ...

Page 31

... (mA Output leakage current µ Low level output voltage ( Low level output voltage (V) Seiko Instruments Inc. 2-WIRE CMOS SERIAL E S-24CS01A/02A/04A/08A LO  Ambient temperature (Ta SDA=0 V 1.0 0 °  Low level output current I Ta=-40 ° C 0.6 0 0 (mA) ...

Page 32

... V ( Low input inversion voltage V  Power supply voltage V Ta=25 ° C A0, A1, A2, SDA, SCL, WP 3.0 V 2.0 IL ( Low power supply detection voltage −V  Ambient temperature (Ta) 2.0 -V DET (V) 1 ° PROM 1. 20 High input inversion voltage ( Low input inversion voltage V IL ...

Page 33

... Ta (° SDA output delay time t  Ambient temperature (Ta µ s) 0 ° Write time t MAX (ms (ms SDA output delay time µ Seiko Instruments Inc. 2-WIRE CMOS SERIAL E S-24CS01A/02A/04A/08A  Power supply voltage V WR Ta=25 ° (V) CC  Ambient temperature (Ta) ...

Page 34

... CMOS SERIAL E S-24CS01A/02A/04A/08A 2. 7 SDA output delay time t  Ambient temperature (Ta µ s) 0 ° PROM AA 85 Seiko Instruments Inc. Rev.4.5 _00 ...

Page 35

... Product Name Structure 1. S-24CS01A/02A/04A S-24CS0xA S-24CS08A S-24CS08A 2-WIRE CMOS SERIAL E Operation temperature none : −40 to +85°C : −40 to +105°C (Only 8-Pin SOP(JEDEC), 8-Pin TSSOP direction in tape specification (Except 8-Pin DIP 8-Pin SOP(JEDEC), 8-Pin TSSOP TF : SNT-8A Package code (abbreviation 8-Pin DIP FJ : ...

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... Use of the information described herein for other purposes and/or reproduction or copying without the express permission of Seiko Instruments Inc. is strictly prohibited. The products described herein cannot be used as part of any device or equipment affecting the human body, such as exercise equipment, medical equipment, security systems, gas equipment, or any apparatus installed in airplanes and other vehicles, without prior written permission of Seiko Instruments Inc ...

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