M24C04-WMN6P STMicroelectronics, M24C04-WMN6P Datasheet - Page 7

M24C04-WMN6P

Manufacturer Part Number

M24C04-WMN6P

Description

IC EEPROM 4KBIT 400KHZ 8SOIC

Manufacturer

STMicroelectronics

Datasheets

1.M24C01-WMN6TP.pdf (39 pages)

2.M24C04-WMN6P.pdf (9 pages)

3.M24C04-WMN6P.pdf (29 pages)

Specifications of M24C04-WMN6P

Format - Memory

EEPROMs - Serial

Memory Type

EEPROM

Memory Size

4K (512 x 8)

Speed

400kHz

Interface

I²C, 2-Wire Serial

Voltage - Supply

2.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Package / Case

8-SOIC (3.9mm Width)

Organization

512 x 8

Interface Type

I2C

Maximum Clock Frequency

0.4 MHz

Access Time

900 ns

Supply Voltage (max)

5.5 V

Supply Voltage (min)

2.5 V

Maximum Operating Current

2 mA

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

2.5 V, 5.5 V

Capacitance, Input

8 pF (SDA), 6 pF (Other Pins)

Current, Input, Leakage

±2 μA

Current, Operating

2 mA

Current, Output, Leakage

±2

Current, Supply

3 mA

Data Retention

>40 yrs.

Density

Package Type

SO8

Temperature, Operating

-40 to +85 °C

Temperature, Operating, Maximum

85 °C

Temperature, Operating, Minimum

-40 °C

Time, Access

900 ns

Time, Fall

50 ns

Time, Rise

50 ns

Voltage, Esd

4000 V

Voltage, Input, High

3.5 to 6.5 V

Voltage, Input, High Level

0.7 V

Voltage, Input, Low

0.75 to 1.65 V

Voltage, Input, Low Level

–0.45 V

Voltage, Output, Low

0.4 V

Voltage, Supply

2.5 to 5.5 V

Memory Configuration

512 X 8

Clock Frequency

400kHz

Supply Voltage Range

2.5V To 5.5V

Memory Case Style

SOIC

No. Of Pins

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-8562
M24C04-WMN6P

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Company

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Manufacturer

Quantity

Price

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Part Number:

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Quantity:

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Part Number:

M24C04-WMN6P

Manufacturer:

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DEVICE OPERATION

The device supports the I

marized in

on to the bus is defined to be a transmitter, and

any device that reads the data to be a receiver.

The device that controls the data transfer is known

as the bus master, and the other as the slave de-

vice. A data transfer can only be initiated by the

bus master, which will also provide the serial clock

for synchronization. The M24Cxx device is always

a slave in all communication.

Start Condition

Start is identified by a falling edge of Serial Data

(SDA) while Serial Clock (SCL) is stable in the

High state. A Start condition must precede any

data transfer command. The device continuously

monitors (except during a Write cycle) Serial Data

(SDA) and Serial Clock (SCL) for a Start condition,

and will not respond unless one is given.

Stop Condition

Stop is identified by a rising edge of Serial Data

(SDA) while Serial Clock (SCL) is stable and driv-

en High. A Stop condition terminates communica-

tion between the device and the bus master. A

Read command that is followed by NoAck can be

followed by a Stop condition to force the device

into the Stand-by mode. A Stop condition at the

end of a Write command triggers the internal EE-

PROM Write cycle.

Acknowledge Bit (ACK)

The acknowledge bit is used to indicate a success-

ful byte transfer. The bus transmitter, whether it be

bus master or slave device, releases Serial Data

(SDA) after sending eight bits of data. During the

Data (SDA) Low to acknowledge the receipt of the

eight data bits.

Data Input

During data input, the device samples Serial Data

(SDA) on the rising edge of Serial Clock (SCL).

For correct device operation, Serial Data (SDA)

must be stable during the rising edge of Serial

Table 3. Operating Modes

Note: 1. X =

Current Address Read

Random Address Read

Sequential Read

Byte Write

Page Write

clock pulse period, the receiver pulls Serial

Mode

Figure

or V

5.. Any device that sends data

C protocol. This is sum-

RW bit

M24C16, M24C08, M24C04, M24C02, M24C01

Clock (SCL), and the Serial Data (SDA) signal

must change only when Serial Clock (SCL) is driv-

en Low.

Memory Addressing

To start communication between the bus master

and the slave device, the bus master must initiate

a Start condition. Following this, the bus master

sends the Device Select Code, shown in

(on Serial Data (SDA), most significant bit first).

The Device Select Code consists of a 4-bit Device

Type Identifier, and a 3-bit Chip Enable “Address”

(E2, E1, E0). To address the memory array, the 4-

bit Device Type Identifier is 1010b.

Each device is given a unique 3-bit code on the

Chip Enable (E0, E1, E2) inputs. When the Device

Select Code is received, the device only responds

if the Chip Enable Address is the same as the val-

ue on the Chip Enable (E0, E1, E2) inputs. How-

ever, those devices with larger memory capacities

(the M24C16, M24C08 and M24C04) need more

address bits. E0 is not available for use on devices

that need to use address line A8; E1 is not avail-

able for devices that need to use address line A9,

and E2 is not available for devices that need to use

address line A10 (see

details). Using the E0, E1 and E2 inputs, up to

eight M24C02 (or M24C01), four M24C04, two

M24C08 or one M24C16 devices can be connect-

ed to one I

cases, this gives a total memory capacity of

16 Kbits, 2 KBytes (except where M24C01 devic-

es are used).

The 8

set to 1 for Read and 0 for Write operations.

If a match occurs on the Device Select code, the

corresponding device gives an acknowledgment

on Serial Data (SDA) during the 9

device does not match the Device Select code, it

deselects itself from the bus, and goes into Stand-

by mode.

Bytes

bit is the Read/Write bit (RW). This bit is

START, Device Select, RW = 1

START, Device Select, RW = 0, Address

reSTART, Device Select, RW = 1

Similar to Current or Random Address Read

START, Device Select, RW = 0

C bus. In each case, and in the hybrid

Initial Sequence

Figure 3.

and

bit time. If the

Table 2.

7/29

for

M24C04-WMN6P STMicroelectronics, M24C04-WMN6P Datasheet - Page 7

M24C04-WMN6P

Specifications of M24C04-WMN6P

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