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ACE24C04.08A
Technology Description
Two-wire Serial EEPROM
The ACE24C04/08A provides low operation voltage of 4096/8192 bits of serial electrically erasable and programmable read-only memory (EEPROM) organized as 512/1024 words of 8 bits each. The device is optimized for use in many industrial and commercial applications where low-power and low-voltage operations are essential.
Features
Low Operation Voltage: Vcc=1.7V to 5.5V 5V tolerant I/O Internally Organized: 256x8 (4K), 1024x8 (8K) Two-wire Serial Interface Schmitt Trigger, Filtered Inputs for Noise Suppression Bi-directional Data Transfer Protocol 1MHz(2.5V~5.5V) and 400kHz(1.7V) Compatibility Write Protect Pin for Hardware Data Protection 16-byte Page Write Modes Partial Page Writes are Allowed Self-timed Write Cycle (5 ms max) High-reliability - Endurance: 1,000,000 Write Cycles - Data Retention: 100 Years
Absolute Maximum Ratings
Operating Temperature -55 to +125 Storage Temperature -65 to +150 Voltage on Any Pin with Respect to Ground -1.0V to +7.0V Maximum Operating Voltage 6.25V DC Output Current 5.0 mA
*Notice: Stresses beyond 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 beyond those indicated in the operational sections of this specification are not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
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ACE24C04.08A
Technology Packaging Type
Two-wire Serial EEPROM
Pin Configurations
Pin Name A0~A2 SDA SCL WP VCC GND Function Device Address Inputs Serial Data Input / Output Serial Clock Input Write Protect Power Supply Ground
Block Diagram
Figure 1
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ACE24C04.08A
Technology Ordering Information
Selection Guide ACE24C04/08A XX + XH
Halogen - free U : Tube T : Tape and Reel Pb - free DP : PDIP-8 FM : SOP-8 TM : TSSOP-8
Two-wire Serial EEPROM
Pin Description
Serial Clock (SCL): The SCL input is used to positive edge clock data into each EEPROM device and negative edge clock data out of each device. Serial Data (SDA): The SDA pin is bi-directional for serial data transfer. This pin is open-drain driven and may be wire-ORed with any number of other open-drain or open-collector devices. Device/Page Addresses (A2,A1) The ACE24C04A uses the A2 and A1 inputs for hard wire addressing and a total of four 4K devices may be addressed on a single bus system. The A0 pin is a no connect and can be connected to ground (device addressing is discussed in detail under the Device Addressing section). The ACE24C08A only uses the A2 input for hardware addressing and total of two 8K devices may be addressed on a single bus system. The A0 and A1 pins are no connects and can be connected to ground (device addressing is discussed in detail under the Device Addressing section). Write Protect (WP): The ACE24C04/08A has a Write Protect pin that provides hardware data protection. The Write Protect pin allows normal read/write operations when connected to ground (GND). When the Write Protect pin is conceded to Vcc the write protection feature is enabled.
Write Protect Description
WP Pin Status WP=VCC WP=GND Part of the Array Protected ACE24C04A ACE24C08A Full (4K) Array Full (8K) Array Normal Read / Write Operations
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ACE24C04.08A
Technology Memory Organization
ACE24C04A, 4K SERIAL EEPROM:
Two-wire Serial EEPROM
Internally organized with 32 pages of 16 bytes each, the 4K requires an 9-bit data word address for random word addressing.
ACE24C08A, 8K SERIAL EEPROM:
Internally organized with 64 pages of 16 bytes each, the 8K requires an 10-bit data word address for random word addressing. Pin Capacitance
Applicable over recommended operating range from: TA = 25, f = 1.0 MHz, VCC = +1.7V.
Symbol CI/O 1 CIN
1
Test Condition Input / Output Capacitance (SDA) Input Capacitance (A0, A1, A2, SCL)
Max 8 6
Units pF pF
Conditions VI/O = 0V VIN = 0V
Note: This parameter is characterized and is not 100% tested.
DC Characteristics
Applicable over recommended operating range from: TA = -40 to +85, (unless otherwise noted).
Symbol VCC ICC1 ICC2 ISB1 ISB2 ILI ILO VIL1 VIH1 VOL2 VOL1
Parameter Supply Voltage Supply Current Supply Current Standby Current Standby Current Input Leakage Current Output Leakage Current Input Low Level Input High Level Output Low Level Output Low Level
Test Condition
Min 1.7
Typ
Max 5.5
Units V mA mA A A A A V V V V
VCC = 5.5V, Read at 400K VCC = 5.5V, Write at 400K VCC = 1.7V, VIN = VCC/ VSS VCC = 5.5V, VIN = VCC/ VSS VIN = VCC/VSS VOUT = VCC/ VSS -0.6 VCCx0.7 VCC = 3.0V, IOL = 2.1 mA VCC = 1.7V, IOL = 0.15 mA
0.4 2.0 3 8 0.10 0.05
1.0 3.0 6.0 18.0 3.0 3.0 VCCx0.3 5.5 0.4 0.2
Note: 1. VIL min and VIH max are reference only and are not tested.
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ACE24C04.08A
Technology AC Characteristics
Two-wire Serial EEPROM
Applicable over recommended operating range from: TA = -40 to +85, VCC = +1.7V to +5.5V, CL = 1 TTL Gate and 100 pF (unless otherwise noted). Test conditions are listed in Note 2.
Symbol fSCL TLOW THIGH TAA TBUF1 THD.STA TSU.STA THD.DAT TSU.DAT TR TF TSU.STO TDH TWR Endurance(1)
Parameter Clock Frequency, SCL Clock Pulse Width Low Clock Pulse Width High Clock Low to Data Out Valid Time the bus must be free before a new transmission can Start Start Hold Time Start Setup Time Data In Hold Time Data In Setup Time Inputs Rise Time Inputs Fall Time Stop Setup Time Data Out Hold Time Write Cycle Time 3.6V, 25, Page Mode
1.7-volt
2.5-volt
5.5-volt
Min Max Min Max Min Max 400 1.3 0.6 0.4 0.4 1000 0.4 0.4 1000
Units kHz s s s s s s s ns
0.1 0.9 0.05 0.55 0.05 0.55 1.2 0.6 0.6 0 100 0.3 300 0.6 50 5 0.25 50 5 1,000,000 0.5 0.25 0.25 0 100 0.3 100 0.25 50 5 0.5 0.25 0.25 0 100 0.3 100
s ns s ns ms Write Cycles
Notes:1. This parameter is characterized and not 100% tested. 2.AC measurement conditions: RL (connects to Vcc): 1.3k (2.5V, 5.5V), 10k (1.7V) Input pulse voltages: 0.3 Vcc to 0.7 Vcc Input rise and fall times: 50 ns Input and output timing reference voltages: 0.5Vcc
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ACE24C04.08A
Technology Device Operation
Two-wire Serial EEPROM
Clock and Data Transitions: The SDA pin is normally pulled high with an external device. Data on the SDA pin may change only during SCL low time periods (refer to Figure 4). Data changes during SCL high periods will indicate a start or stop condition as defined below. Start Condition: A high-to-low transition of SDA with SCL high is a start condition which must precede any other command (refer to Figure 5). Stop Condition: A low-to-high transition of SDA with SCL high is a stop condition. After a read sequence, the stop command will place the EEPROM in a standby power mode (refer to Figure 5). Acknowledge: All addresses and data words are serially transmitted to and from the EEPROM in 8-bit words. The EEPROM sends a zero during the ninth clock cycle to acknowledge that it has received each word. The happens during the ninth clock cycle. Following receipt each word from the EEPROM, the microcontroller should send a zero to EEPROM and continue to output the next data word or send a stop condition to finish the read cycle. Standby Mode : The ACE24C04/08A features a low-power standby mode which is enabled: (a) upon power-up and (b) after the receipt of the stop bit and the completion of any internal operations. Device Reset : After an interruption in protocol power loss or system reset, any two-wire part can be protocol reset by following these steps: 1. Clock up to 9 cycles. 2. Look for SDA high in each cycle while SCL is high and then. 3. Create a start condition as SDA is high
Bus Timing
Figure 2SCL: Serial Clock, SDA: Serial Data I/O
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ACE24C04.08A
Technology Write Cycle Timing
Two-wire Serial EEPROM
Figure 3SCL: Serial Clock, SDA: Serial Data I/O
Note: The write cycle time tWR is the time from a valid stop condition of a write sequence to the end of the internal clear/write cycle.
Figure 4Data Validity
Figure 5Start and Stop Definition
Figure 6Output Acknowledge
VER 1.2 7

ACE24C04.08A
Technology Device Addressing
Two-wire Serial EEPROM
The 4/8K EEPROM devices all require an 8-bit device address word following a start condition to enable the chip for a read or write operation (refer to Figure 7). The device address word consists of a mandatory one, zero sequence for the first four most significant bits as shown. This is common to all the EEPROM devices. The 4K EEPROM only uses the A2 and A1 device address bits with the third bit being a memory page address bit. The two device address bits must compare to their corresponding hard-wired input pins. The A0 pin is no connect. The 8K EEPROM only uses the A2 device address bit with the next 2 bits being for memory page addressing. The A2 must compare to its corresponding hard-wired input pin. The A1 and A2 pins are no connect. The module package device address word also consist of a mandatory one, zero sequence for the first four most significant bits. The next 3 bits are all zero. The eighth bit of the device address is the read/write operation select bit. A read operation is initiated if this bit is high and a write operation is initiated if this bit is low. Upon a compare of the device address, the EEPROM will output a zero. If a compare is not made, the chip will return to a standby state.
Write Operations
Byte Write A write operation requires an 8-bit data word address following the device address word and acknowledgment. Upon receipt of this address, the EEPROM will again respond with a zero and then clock in the first 8-bit data word. Following receipt of the 8-bit data word, the EEPROM will output a zero and the addressing device, such as a microcontroller, must terminate the write sequence with a stop condition. At this time the EEPROM enters an internally timed write cycle, tWR, to the nonvolatile memory. All inputs are disabled during this write cycle and the EEPROM will not respond until the write is complete (refer to Figure 8). Page Write The 4/8K devices are capable of 16-byte page writes. A page write is initiated the same as a byte write, but the microcontroller does not send a stop condition after the first data word is clocked in. Instead, after the EEPROM acknowledges receipt of the first data word, the microcontroller can transmit up to seven more data words. The EEPROM will respond with a zero after each data word received. The microcontroller must terminate the page write sequence with a stop condition (refer to Figure 9). The data word address lower three bits are internally incremented following the receipt of each data word. The higher data word address bits are not incremented, retaining the memory page row location. When the word address, internally generated, reaches the page boundary, the following byte is placed at the beginning of the same page. If more than eight data words are transmitted to the EEPROM, the data word address will "roll over" and previous data will be overwritten.
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ACE24C04.08A
Technology
Two-wire Serial EEPROM
Acknowledge Polling Once the internally timed write cycle has started and the EEPROM inputs are disabled, acknowledge polling can be initiated. This involves sending a start condition followed by the device address word. The read/write bit is representative of the operation desired. Only if the internal write cycle has completed will the EEPROM respond with a zero allowing the read or write sequence to continue.
Read Operations
Read operations are initiated the same way as write operations with the exception that the read/write select bit in the device address word is set to one. There are three read operations: current address read, random address read and sequential read. Current Address Read The internal data word address counter maintains the last address accessed during the last read or write operation, incremented by one. This address stays valid between operations as long as the chip power is maintained. The address "roll over" during read is from the last byte of the last memory page to the first byte of the first page. The address "roll over" during write is from the last byte of the current page to the first byte of the same page. Once the device address with the read/write select bit set to one is clocked in and acknowledged by the EEPROM, the current address data word is serially clocked out. The microcontroller does not respond with an input zero but does generate a following stop condition (refer to Figure 10). Random Read A random read requires a "dummy" byte write sequence to load in the data word address. Once the device address word and data word address are clocked in and acknowledged by the EEPROM, the microcontroller must generate another start condition. The microcontroller now initiates a current address read by sending a device address with the read/write select bit high. The EEPROM acknowledges the device address and serially clocks out the data word. The microcontroller does not respond with a zero but does generate a following stop condition (refer to Figure 11). Sequential Read Sequential reads are initiated by either a current address read or a random address read. After the microcontroller receives a data word, it responds with an acknowledge. As long as the EEPROM receives an acknowledge, it will continue to increment the data word address and serially clock out sequential data words. When the memory address limit is reached, the data word address will "roll over" and the sequential read will continue. The sequential read operation is terminated when the microcontroller does not respond with a zero but does generate a following stop condition (refer to Figure 12).
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ACE24C04.08A
Technology
MSB 4K 1 MSB 8K 1 0 1 0 A2 P1 P0 0 1 0 A2 A1 P0 LSB R/W LSB R/W
Two-wire Serial EEPROM
Figure 7Device Address
Figure 8Byte Write
Figure 9Page Write
Figure 10Current Address Read
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ACE24C04.08A
Technology
Two-wire Serial EEPROM
Figure 11 Random Read
Figure 12 Sequential Read
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ACE24C04.08A
Technology Packaging information
PDIP-8
Two-wire Serial EEPROM
Note: Dimensions in Millimeters.
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ACE24C04.08A
Technology
SOP-8
Two-wire Serial EEPROM
Note: Dimensions in Millimeters.
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ACE24C04.08A
Technology
TSSOP-8
Two-wire Serial EEPROM
Note: Dimensions in Millimeters.
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ACE24C04.08A
Technology
Two-wire Serial EEPROM
Notes ACE does not assume any responsibility for use as critical components in life support devices or systems without the express written approval of the president and general counsel of ACE Electronics Co., LTD. As sued herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and shoes failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.
ACE Technology Co., LTD. http://www.ace-ele.com/
VER 1.2
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