M93Cx6-A125 Automotive 16-Kbit, 8-Kbit, 4-Kbit, 2-Kbit and 1-Kbit (8-bit or 16-bit wide) MICROWIRE™ serial EEPROM Datasheet - production data Features • Industry standard MICROWIRE™ bus • Memory array: 1 Kb, 2 Kb, 4 Kb, 8 Kb or 16 Kb • Dual organization: by word (x16) or byte (x8) • Write SO8 (MN) – Byte within 4 ms 150 mil width – Word within 4 ms • READY/BUSY signal during programming • 2 MHz clock rate • Sequential read operation • Single supply voltage: 1.8 V to 5.5 V TSSOP8 (DW) • Operating temperature range: -40 °C up to 169 mil width 125 °C • Enhanced ESD protection • Write cycle endurance – 4 million Write cycles at 25 °C – 1.2 million Write cycles at 85 °C WFDFPN8 (MF) – 600 k Write cycles at 125 °C 2 x 3 mm • Data retention – 50 years at 125 °C – more than 100 years at 25 °C • Packages – RoHS-compliant and Halogen-free (ECOPACK2®) Table 1. Device summary Reference Part number M93C46-A125 M93C56-A125 M93Cx6-A125 M93C66-A125 M93C76-A125 M93C86-A125 January 2015 DocID024752 Rev 5 1/31 This is information on a product in full production. www.st.com

Contents M93Cx6-A125 Contents 1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2 Connecting to the serial bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3 Operating features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.1 Supply voltage (V ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 CC 3.1.1 Operating supply voltage (V ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 CC 3.1.2 Power-up conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.1.3 Power-up and device reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.1.4 Power-down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 4 Memory organization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 5 Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 5.1 Read Data from Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5.2 Erase and Write data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5.2.1 Write Enable and Write Disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5.2.2 Write . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5.2.3 Write All . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 5.2.4 ECC (Error Correction Code) and Write cycling . . . . . . . . . . . . . . . . . . 15 5.2.5 Erase Byte or Word . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 5.2.6 Erase All . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 6 READY/BUSY status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 7 Initial delivery state . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 8 Common I/O operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 9 Clock pulse counter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 10 Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 11 DC and AC parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 2/31 DocID024752 Rev 5

M93Cx6-A125 Contents 12 Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 13 Part numbering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 14 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 DocID024752 Rev 5 3/31 3

List of tables M93Cx6-A125 List of tables Table 1. Device summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Table 2. Memory size versus organization. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Table 3. Signal names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Table 4. Instruction set for the M93Cx6-A125 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Table 5. Instruction set for the M93C46 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Table 6. Instruction set for the M93C56 and M93C66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Table 7. Instruction set for the M93C76 and M93C86 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Table 8. Absolute maximum ratings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Table 9. Operating conditions (M93Cx6-A125) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Table 10. AC measurement conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Table 11. Input and output capacitance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Table 12. Cycling performance by byte . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Table 13. DC characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Table 14. AC characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Table 15. SO8 narrow – 8 lead plastic small outline, 150 mils body width, package data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Table 16. TSSOP8 – 8-lead thin shrink small outline, package mechanical data. . . . . . . . . . . . . . . . 26 Table 17. WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm pitch, mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Table 18. Ordering information scheme. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 Table 19. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4/31 DocID024752 Rev 5

M93Cx6-A125 List of figures List of figures Figure 1. Logic diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Figure 2. 8-pin package connections (top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Figure 3. Bus master and memory devices on the serial bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 4. M93Cx6-A125 ORG input connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Figure 5. READ, WRITE, WEN, WDS sequences. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 6. WRAL sequence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Figure 7. ERASE, ERAL sequences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Figure 8. Write sequence with one clock glitch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Figure 9. AC testing input output waveforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Figure 10. Synchronous timing (Start and op-code input). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Figure 11. Synchronous timing (Read) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Figure 12. Synchronous timing (Write) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Figure 13. SO8 narrow – 8 lead plastic small outline, 150 mils body width, package outline. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Figure 14. TSSOP8 – 8 lead thin shrink small outline, package outline . . . . . . . . . . . . . . . . . . . . . . . 26 Figure 15. WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm, package outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 DocID024752 Rev 5 5/31 5

Description M93Cx6-A125 1 Description The M93C46 (1 Kbit), M93C56 (2 Kbit), M93C66 (4 Kbit), M93C76 (8 Kbit) and M93C86 (16 Kbit) are Electrically Erasable PROgrammable Memory (EEPROM) devices accessed through the MICROWIRE™ bus protocol. The memory array can be configured either in bytes (x8b) or in words (x16b). The M93Cx6-A125 devices operate within a voltage supply range from 1.8 V to 5.5 V The M93Cx6-A125 devices are guaranteed over the -40 °C/+125 °C temperature range and are compliant with the Automotive standard AEC-Q100 Grade 1. Table 2. Memory size versus organization Device Number of bits Number of 8-bit bytes Number of 16-bit words M93C86 16384 2048 1024 M93C76 8192 1024 512 M93C66 4096 512 256 M93C56 2048 256 128 M93C46 1024 128 64 Figure 1. Logic diagram (cid:54)(cid:35)(cid:35) (cid:36) (cid:49) (cid:35) (cid:45)(cid:25)(cid:19)(cid:35)(cid:88)(cid:22) (cid:51) (cid:47)(cid:50)(cid:39) (cid:54)(cid:51)(cid:51) (cid:33)(cid:41)(cid:16)(cid:17)(cid:25)(cid:18)(cid:24) Table 3. Signal names Signal name Function Direction S Chip Select Input D Serial Data input Input Q Serial Data output Output C Serial Clock Input ORG Organization Select Input V Supply voltage - CC V Ground - SS 6/31 DocID024752 Rev 5

M93Cx6-A125 Description The M93Cx6-A125 is accessed by a set of instructions, as summarized in Table 4, and in more detail in Table 5: Instruction set for the M93C46 to Table 7: Instruction set for the M93C76 and M93C86). Table 4. Instruction set for the M93Cx6-A125 Instruction Description Data READ Read Data from Memory Byte or Word WRITE Write Data to Memory Byte or Word WEN Write Enable - WDS Write Disable - ERASE Erase Byte or Word Byte or Word ERAL Erase All Memory - WRAL Write All Memory with same Data - A Read Data from Memory (READ) instruction loads the address of the first byte or word to be read in an internal address register. The data at this address is then clocked out serially. The address register is automatically incremented after the data is output and, if Chip Select Input (S) is held High, the M93Cx6-A125 can output a sequential stream of data bytes or words. In this way, the memory can be read as a data stream from eight to 16384 bits long (in the case of the M93C86), or continuously (the address counter automatically rolls over to 00h when the highest address is reached). Programming is internally self-timed (the external clock signal on Serial Clock (C) may be stopped or left running after the start of a Write cycle) and does not require an Erase cycle prior to the Write instruction. The Write instruction writes 8 or 16 bits at a time into one of the byte or word locations of the M93Cx6-A125. After the start of the programming cycle, a Busy/Ready signal is available on Serial Data Output (Q) when Chip Select Input (S) is driven High. An internal Power-on Data Protection mechanism in the M93Cx6-A125 inhibits the device when the supply is too low. Figure 2. 8-pin package connections (top view) (cid:45)(cid:25)(cid:19)(cid:35)(cid:88)(cid:22) (cid:51) (cid:17) (cid:24) (cid:54)(cid:35)(cid:35) (cid:35) (cid:18) (cid:23) (cid:36)(cid:53) (cid:36) (cid:19) (cid:22) (cid:47)(cid:50)(cid:39) (cid:49) (cid:20) (cid:21) (cid:54)(cid:51)(cid:51) (cid:33)(cid:41)(cid:16)(cid:17)(cid:25)(cid:18)(cid:25)(cid:34) 1. See Section 12: Package mechanical data for package dimensions, and how to identify pin-1. 2. DU = Don’t Use. The DU (do not use) pin does not contribute to the normal operation of the device. It is reserved for use by STMicroelectronics during test sequences. The pin may be left unconnected or may be connected to V or V . CC SS DocID024752 Rev 5 7/31 30

Connecting to the serial bus M93Cx6-A125 2 Connecting to the serial bus Figure 3 shows an example of three memory devices connected to an MCU, on a serial bus. Only one device is selected at a time, so only one device drives the Serial Data output (Q) line at a time, the other devices are high impedance. The pull-down resistor R (represented in Figure 3) ensures that no device is selected if the bus master leaves the S line in the high impedance state. In applications where the bus master may be in a state where all inputs/outputs are high impedance at the same time (for example, if the bus master is reset during the transmission of an instruction), the clock line (C) must be connected to an external pull-down resistor so that, if all inputs/outputs become high impedance, the C line is pulled low (while the S line is pulled low): this ensures that C does not become high at the same time as S goes low, and so, that the t requirement is met. The typical value of R is 100 kΩ. SLCH Figure 3. Bus master and memory devices on the serial bus (cid:0) (cid:54) (cid:51)(cid:51) (cid:54) (cid:35)(cid:35) (cid:50) (cid:51)(cid:36)(cid:47) (cid:51)(cid:36)(cid:41) (cid:51)(cid:35)(cid:43) (cid:34)(cid:85)(cid:83)(cid:0)(cid:77)(cid:65)(cid:83)(cid:84)(cid:69)(cid:82) (cid:35) (cid:49) (cid:36) (cid:54) (cid:35) (cid:49) (cid:36) (cid:54) (cid:35) (cid:49) (cid:36) (cid:54) (cid:35)(cid:35) (cid:35)(cid:35) (cid:35)(cid:35) (cid:54) (cid:54) (cid:54) (cid:51)(cid:51) (cid:51)(cid:51) (cid:51)(cid:51) (cid:45)(cid:25)(cid:19)(cid:88)(cid:88)(cid:88) (cid:45)(cid:25)(cid:19)(cid:88)(cid:88)(cid:88) (cid:45)(cid:25)(cid:19)(cid:88)(cid:88)(cid:88) (cid:50) (cid:50) (cid:50) (cid:77)(cid:69)(cid:77)(cid:79)(cid:82)(cid:89)(cid:0)(cid:68)(cid:69)(cid:86)(cid:73)(cid:67)(cid:69) (cid:77)(cid:69)(cid:77)(cid:79)(cid:82)(cid:89)(cid:0)(cid:68)(cid:69)(cid:86)(cid:73)(cid:67)(cid:69) (cid:77)(cid:69)(cid:77)(cid:79)(cid:82)(cid:89)(cid:0)(cid:68)(cid:69)(cid:86)(cid:73)(cid:67)(cid:69) (cid:35)(cid:51)(cid:19) (cid:35)(cid:51)(cid:18) (cid:35)(cid:51)(cid:17) (cid:51) (cid:47)(cid:50)(cid:39) (cid:51) (cid:47)(cid:50)(cid:39) (cid:51) (cid:47)(cid:50)(cid:39) (cid:33)(cid:41)(cid:17)(cid:20)(cid:19)(cid:23)(cid:23)(cid:66) 8/31 DocID024752 Rev 5

M93Cx6-A125 Operating features 3 Operating features 3.1 Supply voltage (V ) CC 3.1.1 Operating supply voltage (V ) CC Prior to selecting the memory and issuing instructions to it, a valid and stable V voltage CC within the specified [V (min), V (max)] range must be applied. In order to secure a stable CC CC DC supply voltage, it is recommended to decouple the V line with a suitable capacitor CC (usually of the order of 10 nF to 100 nF) close to the V /V package pins. CC SS This voltage must remain stable and valid until the end of the transmission of the instruction and, for a Write instruction, until the completion of the internal write cycle (t ). W 3.1.2 Power-up conditions When the power supply is turned on, V rises from V to V . During this time, the Chip CC SS CC Select (S) line is not allowed to float and should be driven to V , it is therefore SS recommended to connect the S line to V via a suitable pull-down resistor. SS 3.1.3 Power-up and device reset In order to prevent inadvertent Write operations during power-up, a power on reset (POR) circuit is included. At power-up (continuous rise of V ), the device does not respond to any CC instruction until V has reached the power on reset threshold voltage (this threshold is CC lower than the minimum V operating voltage defined in Operating conditions, in CC Section 11: DC and AC parameters). When V passes the POR threshold, the device is reset and is in the following state: CC • Standby Power mode • deselected (assuming that there is a pull-down resistor on the S line) 3.1.4 Power-down At power-down (continuous decrease in V ), as soon as V drops from the normal CC CC operating voltage to below the power on reset threshold voltage, the device stops responding to any instruction sent to it. During power-down, the device must be deselected and in the Standby Power mode (that is, there should be no internal Write cycle in progress). DocID024752 Rev 5 9/31 30

Memory organization M93Cx6-A125 4 Memory organization The M93Cx6-A125 memory is organized either as bytes (x8) or as words (x16). If Organization Select (ORG) is left unconnected (or connected to V ) the x16 organization is CC selected; when Organization Select (ORG) is connected to Ground (V ) the x8 SS organization is selected. When the M93Cx6-A125 is in Standby mode, Organization Select (ORG) should be set either to V or V to reach the device minimum power consumption SS CC (as any voltage between V and V applied to ORG input may increase the device SS CC Standby current). Figure 4. M93Cx6-A125 ORG input connection (cid:57)(cid:70)(cid:70) (cid:57)(cid:70)(cid:70) (cid:57)(cid:70)(cid:70) (cid:49)(cid:82)(cid:87)(cid:3) (cid:70)(cid:82)(cid:81)(cid:81)(cid:72)(cid:70)(cid:87)(cid:72)(cid:71) (cid:50)(cid:53)(cid:42) (cid:50)(cid:53)(cid:42) (cid:50)(cid:53)(cid:42) (cid:57)(cid:86)(cid:86) (cid:57)(cid:86)(cid:86) (cid:57)(cid:86)(cid:86) (cid:91)(cid:20)(cid:25)(cid:3)(cid:82)(cid:85)(cid:74)(cid:68)(cid:81)(cid:76)(cid:93)(cid:68)(cid:87)(cid:76)(cid:82)(cid:81) (cid:91)(cid:20)(cid:25)(cid:3)(cid:82)(cid:85)(cid:74)(cid:68)(cid:81)(cid:76)(cid:93)(cid:68)(cid:87)(cid:76)(cid:82)(cid:81) (cid:91)(cid:27)(cid:3)(cid:82)(cid:85)(cid:74)(cid:68)(cid:81)(cid:76)(cid:93)(cid:68)(cid:87)(cid:76)(cid:82)(cid:81) (cid:48)(cid:54)(cid:89)(cid:22)(cid:20)(cid:25)(cid:28)(cid:19)(cid:57)(cid:20) 10/31 DocID024752 Rev 5

M93Cx6-A125 Instructions 5 Instructions The instruction set of the M93Cx6-A125 devices contains seven instructions, as summarized in Table 5 to Table 7. Each instruction consists of the following parts, as shown in Figure 5: READ, WRITE, WEN, WDS sequences: • Each instruction is preceded by a rising edge on Chip Select Input (S) with Serial Clock (C) being held low. • A start bit, which is the first ‘1’ read on Serial Data Input (D) during the rising edge of Serial Clock (C). • Two op-code bits, read on Serial Data Input (D) during the rising edge of Serial Clock (C). (Some instructions also use the first two bits of the address to define the op-code). • The address bits of the byte or word that is to be accessed. For the M93C46, the address is made up of 6 bits for the x16 organization or 7 bits for the x8 organization (see Table 5). For the M93C56 and M93C66, the address is made up of 8 bits for the x16 organization or 9 bits for the x8 organization (see Table 6). For the M93C76 and M93C86, the address is made up of 10 bits for the x16 organization or 11 bits for the x8 organization (see Table 7). The M93Cx6-A125 devices are fabricated in CMOS technology and are therefore able to run as slow as 0 Hz (static input signals) or as fast as the maximum ratings specified in “AC characteristics” tables, in Section 11: DC and AC parameters. Table 5. Instruction set for the M93C46 x8 origination (ORG = 0) x16 origination (ORG = 1) Start Op- Instruction Description Required Required bit code Address Address Data clock Data clock (1) (1) cycles cycles Read Data from READ 1 10 A6-A0 Q7-Q0 - A5-A0 Q15-Q0 - Memory Write Data to WRITE 1 01 A6-A0 D7-D0 18 A5-A0 D15-D0 25 Memory WEN Write Enable 1 00 11X XXXX - 10 11 XXXX - 9 00X WDS Write Disable 1 00 - 10 00 XXXX - 9 XXXX Erase Byte or ERASE 1 11 A6-A0 - 10 A5-A0 - 9 Word 10X ERAL Erase All Memory 1 00 - 10 10 XXXX - 9 XXXX Write All Memory 01X WRAL 1 00 D7-D0 18 01 XXXX D15-D0 25 with same Data XXXX 1. X = Don't Care bit. DocID024752 Rev 5 11/31 30

Instructions M93Cx6-A125 Table 6. Instruction set for the M93C56 and M93C66 x8 origination (ORG = 0) x16 origination (ORG = 1) Op- Start Instruction Description cod Required Required bit Address Address e (1) (2) Data clock (1) (3) Data clock cycles cycles Q7- Q15- READ Read Data from Memory 1 10 A8-A0 - A7-A0 - Q0 Q0 D7- WRITE Write Data to Memory 1 01 A8-A0 20 A7-A0 D15-D0 27 D0 1 1XXX 11XX WEN Write Enable 1 00 - 12 - 11 XXXX XXXX 0 0XXX 00XX WDS Write Disable 1 00 - 12 - 11 XXXX XXXX ERASE Erase Byte or Word 1 11 A8-A0 - 12 A7-A0 - 11 1 0XXX 10XX ERAL Erase All Memory 1 00 - 12 - 11 XXXX XXXX Write All Memory with 0 1XXX D7- 01XX WRAL 1 00 20 D15-D0 27 same Data XXXX D0 XXXX 1. X = Don't Care bit. 2. Address bit A8 is not decoded by the M93C56. 3. Address bit A7 is not decoded by the M93C56. Table 7. Instruction set for the M93C76 and M93C86 x8 Origination (ORG = 0) x16 Origination (ORG = 1) Start Op- Instruction Description Required Required bit code Address Address Data clock Data clock (1)(2) (1) (3) cycles cycles Read Data from READ 1 10 A10-A0 Q7-Q0 - A9-A0 Q15-Q0 - Memory Write Data to WRITE 1 01 A10-A0 D7-D0 22 A9-A0 D15-D0 29 Memory 11X XXXX 11 XXXX WEN Write Enable 1 00 - 14 - 13 XXXX XXXX 00X XXXX 00 XXXX WDS Write Disable 1 00 - 14 - 13 XXXX XXXX ERASE Erase Byte or Word 1 11 A10-A0 - 14 A9-A0 - 13 10X XXXX 10 XXXX ERAL Erase All Memory 1 00 - 14 - 13 XXXX XXXX Write All Memory 01X XXXX 01 XXXX WRAL 1 00 D7-D0 22 D15-D0 29 with same Data XXXX XXXX 1. X = Don't Care bit. 2. Address bit A10 is not decoded by the M93C76. 3. Address bit A9 is not decoded by the M93C76. 12/31 DocID024752 Rev 5

M93Cx6-A125 Instructions 5.1 Read Data from Memory The Read Data from Memory (READ) instruction outputs data on Serial Data Output (Q). When the instruction is received, the op-code and address are decoded, and the data from the memory is transferred to an output shift register. A dummy 0 bit is output first, followed by the 8-bit byte or 16-bit word, with the most significant bit first. Output data changes are triggered by the rising edge of Serial Clock (C). The M93Cx6-A125 automatically increments the internal address register and clocks out the next byte (or word) as long as the Chip Select Input (S) is held High. In this case, the dummy 0 bit is not output between bytes (or words) and a continuous stream of data can be read (the address counter automatically rolls over to 00h when the highest address is reached). 5.2 Erase and Write data 5.2.1 Write Enable and Write Disable The Write Enable (WEN) instruction enables the future execution of erase or write instructions, and the Write Disable (WDS) instruction disables it. When power is first applied, the M93Cx6-A125 initializes itself so that erase and write instructions are disabled. After a Write Enable (WEN) instruction has been executed, erasing and writing remains enabled until a Write Disable (WDS) instruction is executed, or until V falls below the CC power-on reset threshold voltage. To protect the memory contents from accidental corruption, it is advisable to issue the Write Disable (WDS) instruction after every write cycle. The Read Data from Memory (READ) instruction is not affected by the Write Enable (WEN) or Write Disable (WDS) instructions. 5.2.2 Write For the Write Data to Memory (WRITE) instruction, 8 or 16 data bits follow the op-code and address bits. These form the byte or word that is to be written. As with the other bits, Serial Data Input (D) is sampled on the rising edge of Serial Clock (C). After the last data bit has been sampled, the Chip Select Input (S) must be taken low before the next rising edge of Serial Clock (C). If Chip Select Input (S) is brought low before or after this specific time frame, the self-timed programming cycle will not be started, and the addressed location will not be programmed. The completion of the cycle can be detected by monitoring the READY/BUSY line, as described later in this document. Once the Write cycle has been started, it is internally self-timed (the external clock signal on Serial Clock (C) may be stopped or left running after the start of a Write cycle). The Write cycle is automatically preceded by an Erase cycle, so it is unnecessary to execute an explicit erase instruction before a Write Data to Memory (WRITE) instruction. DocID024752 Rev 5 13/31 30

Instructions M93Cx6-A125 Figure 5. READ, WRITE, WEN, WDS sequences (cid:50)(cid:69)(cid:65)(cid:68) (cid:51) (cid:36) (cid:17)(cid:17)(cid:16)(cid:33)(cid:78) (cid:33)(cid:16) (cid:49) (cid:49)(cid:78) (cid:49)(cid:16) (cid:33)(cid:36)(cid:36)(cid:50) (cid:36)(cid:33)(cid:52)(cid:33)(cid:0)(cid:47)(cid:53)(cid:52) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:55)(cid:82)(cid:73)(cid:84)(cid:69) (cid:51) (cid:35)(cid:40)(cid:37)(cid:35)(cid:43) (cid:51)(cid:52)(cid:33)(cid:52)(cid:53)(cid:51) (cid:36) (cid:17)(cid:16)(cid:17)(cid:33)(cid:78) (cid:33)(cid:16) (cid:36)(cid:78) (cid:36)(cid:16) (cid:49) (cid:33)(cid:36)(cid:36)(cid:50) (cid:36)(cid:33)(cid:52)(cid:33)(cid:0)(cid:41)(cid:46) (cid:34)(cid:53)(cid:51)(cid:57) (cid:50)(cid:37)(cid:33)(cid:36)(cid:57) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:55)(cid:82)(cid:73)(cid:84)(cid:69) (cid:51) (cid:55)(cid:82)(cid:73)(cid:84)(cid:69)(cid:0) (cid:51) (cid:37)(cid:78)(cid:65)(cid:66)(cid:76)(cid:69) (cid:36)(cid:73)(cid:83)(cid:65)(cid:66)(cid:76)(cid:69) (cid:36) (cid:17)(cid:16)(cid:16)(cid:17)(cid:17)(cid:56)(cid:78) (cid:56)(cid:16) (cid:36) (cid:17)(cid:16)(cid:16)(cid:16)(cid:16)(cid:56)(cid:78) (cid:56)(cid:16) (cid:47)(cid:48) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:35)(cid:47)(cid:36)(cid:37) (cid:33)(cid:41)(cid:16)(cid:16)(cid:24)(cid:23)(cid:24)(cid:68) 1. For the meanings of An, Xn, Qn and Dn, see Table 5, Table 6 and Table 7. 14/31 DocID024752 Rev 5

M93Cx6-A125 Instructions 5.2.3 Write All As with the Erase All Memory (ERAL) instruction, the format of the Write All Memory with same Data (WRAL) instruction requires that a dummy address be provided. As with the Write Data to Memory (WRITE) instruction, the format of the Write All Memory with same Data (WRAL) instruction requires that an 8-bit data byte, or 16-bit data word, be provided. This value is written to all the addresses of the memory device. The completion of the cycle can be detected by monitoring the READY/BUSY line, as described next. Figure 6. WRAL sequence (cid:55)(cid:50)(cid:41)(cid:52)(cid:37) (cid:51) (cid:33)(cid:44)(cid:44) (cid:35)(cid:40)(cid:37)(cid:35)(cid:43) (cid:51)(cid:52)(cid:33)(cid:52)(cid:53)(cid:51) (cid:36) (cid:17)(cid:16)(cid:16)(cid:16)(cid:17)(cid:56)(cid:78) (cid:56)(cid:16) (cid:36)(cid:78) (cid:36)(cid:16) (cid:49) (cid:33)(cid:36)(cid:36)(cid:50) (cid:36)(cid:33)(cid:52)(cid:33)(cid:0)(cid:41)(cid:46) (cid:34)(cid:53)(cid:51)(cid:57) (cid:50)(cid:37)(cid:33)(cid:36)(cid:57) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:33)(cid:41)(cid:16)(cid:16)(cid:24)(cid:24)(cid:16)(cid:35) 1. For the meanings of Xn and Dn, please see Table 5, Table 6 and Table 7. 5.2.4 ECC (Error Correction Code) and Write cycling The devices identified with the Process letter “K” embed an Error Correction Code (ECC) internal logic function which is transparent for the Microwire communication protocol. The ECC logic is implemented on each byte. DocID024752 Rev 5 15/31 30

Instructions M93Cx6-A125 5.2.5 Erase Byte or Word The Erase Byte or Word (ERASE) instruction sets the bits of the addressed memory byte (or word) to 1. Once the address has been correctly decoded, the falling edge of the Chip Select Input (S) starts the self-timed Erase cycle. The completion of the cycle can be detected by monitoring the READY/BUSY line, as described in Section 6: READY/BUSY status. Figure 7. ERASE, ERAL sequences (cid:37)(cid:50)(cid:33)(cid:51)(cid:37) (cid:51) (cid:35)(cid:40)(cid:37)(cid:35)(cid:43) (cid:51)(cid:52)(cid:33)(cid:52)(cid:53)(cid:51) (cid:36) (cid:17)(cid:17)(cid:17)(cid:33)(cid:78) (cid:33)(cid:16) (cid:49) (cid:33)(cid:36)(cid:36)(cid:50) (cid:34)(cid:53)(cid:51)(cid:57) (cid:50)(cid:37)(cid:33)(cid:36)(cid:57) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:37)(cid:50)(cid:33)(cid:51)(cid:37) (cid:51) (cid:33)(cid:44)(cid:44) (cid:35)(cid:40)(cid:37)(cid:35)(cid:43) (cid:51)(cid:52)(cid:33)(cid:52)(cid:53)(cid:51) (cid:36) (cid:17)(cid:16)(cid:16)(cid:17)(cid:16)(cid:56)(cid:78) (cid:56)(cid:16) (cid:49) (cid:33)(cid:36)(cid:36)(cid:50) (cid:34)(cid:53)(cid:51)(cid:57) (cid:50)(cid:37)(cid:33)(cid:36)(cid:57) (cid:47)(cid:48) (cid:35)(cid:47)(cid:36)(cid:37) (cid:33)(cid:41)(cid:16)(cid:16)(cid:24)(cid:23)(cid:25)(cid:34) 1. For the meanings of An and Xn, please see Table 5, Table 6 and Table 7. 5.2.6 Erase All The Erase All Memory (ERAL) instruction erases the whole memory (all memory bits are set to 1). The format of the instruction requires that a dummy address be provided. The Erase cycle is conducted in the same way as the Erase instruction (ERASE). The completion of the cycle can be detected by monitoring the READY/BUSY line, as described in Section 6: READY/BUSY status. 16/31 DocID024752 Rev 5

M93Cx6-A125 READY/BUSY status 6 READY/BUSY status While the Write or Erase cycle is underway, for a WRITE, ERASE, WRAL or ERAL instruction, the Busy signal (Q=0) is returned whenever Chip Select input (S) is driven high. (Please note, though, that there is an initial delay, of t , before this status information SLSH becomes available). In this state, the M93Cx6-A125 ignores any data on the bus. When the Write cycle is completed, and Chip Select Input (S) is driven high, the Ready signal (Q=1) indicates that the M93Cx6-A125 is ready to receive the next instruction. Serial Data Output (Q) remains set to 1 until the Chip Select Input (S) is brought low or until a new start bit is decoded. 7 Initial delivery state The device is delivered with all bits in the memory array set to 1 (each byte contains FFh). 8 Common I/O operation Serial Data Output (Q) and Serial Data Input (D) can be connected together, through a current limiting resistor, to form a common, single-wire data bus. Some precautions must be taken when operating the memory in this way, mostly to prevent a short circuit current from flowing when the last address bit (A0) clashes with the first data bit on Serial Data Output (Q). Please see the application note AN394 for details. DocID024752 Rev 5 17/31 30

Clock pulse counter M93Cx6-A125 9 Clock pulse counter In a noisy environment, the number of pulses received on Serial Clock (C) may be greater than the number delivered by the master (the microcontroller). This can lead to a misalignment of the instruction of one or more bits (as shown in Figure 8) and may lead to the writing of erroneous data at an erroneous address. To avoid this problem, the M93Cx6-A125 has an on-chip counter that counts the clock pulses from the start bit until the falling edge of the Chip Select Input (S). If the number of clock pulses received is not the number expected, the WRITE, ERASE, ERAL or WRAL instruction is aborted, and the contents of the memory are not modified. The number of clock cycles expected for each instruction, and for each member of the M93Cx6-A125 family, are summarized in Table 5: Instruction set for the M93C46 to Table 7: Instruction set for the M93C76 and M93C86. For example, a Write Data to Memory (WRITE) instruction on the M93C56 (or M93C66) expects 20 clock cycles (for the x8 organization) from the start bit to the falling edge of Chip Select Input (S). That is: 1 Start bit + 2 Op-code bits + 9 Address bits + 8 Data bits Figure 8. Write sequence with one clock glitch (cid:51) (cid:35) (cid:36) (cid:33)(cid:78) (cid:33)(cid:78)(cid:13)(cid:17) (cid:33)(cid:78)(cid:13)(cid:18) (cid:51)(cid:52)(cid:33)(cid:50)(cid:52) (cid:2)(cid:16)(cid:2) (cid:2)(cid:17)(cid:2) (cid:39)(cid:76)(cid:73)(cid:84)(cid:67)(cid:72) (cid:36)(cid:16) (cid:33)(cid:36)(cid:36)(cid:50)(cid:37)(cid:51)(cid:51)(cid:0)(cid:33)(cid:46)(cid:36)(cid:0)(cid:36)(cid:33)(cid:52)(cid:33) (cid:55)(cid:50)(cid:41)(cid:52)(cid:37) (cid:33)(cid:50)(cid:37)(cid:0)(cid:51)(cid:40)(cid:41)(cid:38)(cid:52)(cid:37)(cid:36)(cid:0)(cid:34)(cid:57)(cid:0)(cid:47)(cid:46)(cid:37)(cid:0)(cid:34)(cid:41)(cid:52) (cid:33)(cid:41)(cid:16)(cid:17)(cid:19)(cid:25)(cid:21) 18/31 DocID024752 Rev 5

M93Cx6-A125 Maximum ratings 10 Maximum ratings Stressing the device outside the ratings listed in the Absolute maximum ratings table may cause permanent damage to the device. These are stress ratings only, and operation of the device at these, or any other conditions outside those indicated in the operating sections of this specification, is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Table 8. Absolute maximum ratings Symbol Parameter Min. Max. Unit Ambient operating temperature –40 130 °C T Storage temperature –65 150 °C STG T Lead temperature during soldering See note (1) °C LEAD V Output range (Q = V or Hi-Z) –0.50 V +0.5 V OUT OH CC V Input range –0.50 V +1 V IN CC V Supply voltage –0.50 6.5 V CC V Electrostatic discharge voltage (human body model)(2) - 4000 V ESD 1. Compliant with JEDEC standard J-STD-020D (for small-body, Sn-Pb or Pb assembly), the ST ECOPACK® 7191395 specification, and the European directive on Restrictions on Hazardous Substances (RoHS directive 2011/65/EU of July 2011). 2. Positive and negative pulses applied on pin pairs, according to the AEC-Q100-002 (compliant with ANSI/ESDA/JEDEC JS-001-2012), C1 = 100 pF, R1 = 1500 Ω, R2 = 500 Ω). DocID024752 Rev 5 19/31 30

DC and AC parameters M93Cx6-A125 11 DC and AC parameters This section summarizes the operating and measurement conditions, and the DC and AC characteristics of the device. Table 9. Operating conditions (M93Cx6-A125) Symbol Parameter Min. Max. Unit V Supply voltage 1.8 5.5 V CC T Ambient operating temperature –40 125 °C A Table 10. AC measurement conditions Symbol Parameter Min. Max. Unit C Load capacitance 100 pF L - Input rise and fall times - 50 ns - Input voltage levels 0.2 V to 0.8 V V CC CC - Input timing reference voltages 0.3 V to 0.7 V V CC CC - Output timing reference voltages 0.3 V to 0.7 V V CC CC Figure 9. AC testing input output waveforms (cid:45)(cid:25)(cid:19)(cid:35)(cid:56)(cid:56) (cid:19)(cid:17)(cid:27)(cid:57)(cid:38)(cid:38) (cid:19)(cid:17)(cid:26)(cid:57)(cid:38)(cid:38) (cid:41)(cid:78)(cid:80)(cid:85)(cid:84)(cid:0)(cid:65)(cid:78)(cid:68)(cid:0)(cid:79)(cid:85)(cid:84)(cid:80)(cid:85)(cid:84) (cid:41)(cid:78)(cid:80)(cid:85)(cid:84)(cid:0)(cid:86)(cid:79)(cid:76)(cid:84)(cid:65)(cid:71)(cid:69)(cid:0)(cid:76)(cid:69)(cid:86)(cid:69)(cid:76)(cid:83) (cid:84)(cid:73)(cid:77)(cid:73)(cid:78)(cid:71)(cid:0)(cid:82)(cid:69)(cid:70)(cid:69)(cid:82)(cid:69)(cid:78)(cid:67)(cid:69)(cid:0)(cid:76)(cid:69)(cid:86)(cid:69)(cid:76)(cid:83) (cid:19)(cid:17)(cid:22)(cid:57)(cid:38)(cid:38) (cid:19)(cid:17)(cid:21)(cid:57)(cid:38)(cid:38) (cid:45)(cid:51)(cid:17)(cid:25)(cid:23)(cid:24)(cid:24)(cid:54)(cid:19) Table 11. Input and output capacitance Symbol Parameter Test condition(1) Min Max Unit C Output capacitance V = 0V - 8 pF OUT OUT C Input capacitance V = 0V - 6 pF IN IN 1. Sampled only, not 100% tested, at T = 25 °C and a frequency of 1 MHz. A Table 12. Cycling performance by byte Symbol Parameter Test condition Min. Max. Unit TA ≤ 25 °C, 1.8 V < V < 5.5 V - 4,000,000 CC Write cycle Write Ncycle TA = 85 °C, 1.8 V < V < 5.5 V - 1,200,000 endurance CC cycle(1) TA = 125 °C, 1.8 V < V < 5.5 V - 600,000 CC 1. A Write cycle is executed when either a Write, a Write All, an Erase or an Erase All instruction is decoded. 20/31 DocID024752 Rev 5

M93Cx6-A125 DC and AC parameters Table 13. DC characteristics Test conditions Symbol Parameter (in addition to conditions specified Min. Max. Unit in Table 9) I Input leakage current V = V orV - 2 LI IN SS CC µA I Output leakage current S = V , V = V orV - 2 LO CC OUT SS CC V = 1.8 V, C = 0.1 V /0.9 V , CC CC CC - 1 Q = open, f = 2 MHz C V = 2.5 V, C = 0.1 V /0.9 V , I Supply current (Read) CC CC CC - 1 mA CC Q = open, f = 2 MHz C V = 5.5 V, f = 2 MHz CC C - 1.5 C = 0.1 V /0.9 V , Q = open CC CC 1.8 V ≤ V < 5.5 V during t , I (1) Supply current (Write) CC W - 1.5 mA CC0 S = V CC t° = 85 °C, V = 1.8 V, CC - 1 S = V V = V or V CC, IN SS CC t° = 85 °C, V = 2.5 V, CC - 2 S = V V = V or V CC, IN SS CC t° = 85 °C, V = 5.5 V, CC - 3 S = V V = V or V CC, IN SS CC I Supply current (Standby mode) µA CC1 t° = 125 °C, V = 1.8 V, CC - 15 S = V V = V or V CC, IN SS CC t° = 125 °C, V = 2.5 V, CC - 15 S = V V = V or V CC, IN SS CC t° = 125 °C, V = 5.5 V, CC - 15 S = V V = V or V CC, IN SS CC 1.8 V ≤ V < 2.5 V –0.45 0.25 V CC CC V Input low voltage (D, C, S) V IL 2.5 V ≤ V < 5.5 V –0.45 0.3 V CC CC 1.8 V ≤ V < 2.5 V 0.75 V V +1 CC CC CC V Input high voltage (D, C, S) V IH 2.5 V ≤ V < 5.5 V 0.7 V V +1 CC CC CC V = 1.8 V, I = 1 mA - 0.3 CC OL V Output low voltage V OL V ≥ 2.5 V, I = 2.1 mA - 0.4 CC OL V = 1.8 V, I = 1 mA 0.8 V - CC OH CC V Output high voltage V OH V ≥ 2.5 V, I = -2.1 mA 0.8 V - CC OH CC V Internal reset threshold voltage - 0.5 1.5 V RES 1. Average value during the Write cycle (t ) W DocID024752 Rev 5 21/31 30

DC and AC parameters M93Cx6-A125 Table 14. AC characteristics Test conditions specified in Table 9 and Table 10 Symbol Alt. Parameter Min. Max. Unit f f Clock frequency D.C. 2 MHz C SK t Chip Select low to Clock high 50 - ns SLCH t t Chip Select set-up time 50 - ns SHCH CSS t (1) t Chip Select low to Chip Select high 200 - ns SLSH CS t (2) t Clock high time 200 - ns CHCL SKH t (2) t Clock low time 200 - ns CLCH SKL t t Data in set-up time 50 - ns DVCH DIS t t Data in hold time 50 - ns CHDX DIH t t Clock set-up time (relative to S) 50 - ns CLSH SKS t t Chip Select hold time 0 - ns CLSL CSH t t Chip Select to READY/BUSY status - 200 ns SHQV SV Chip Select low to output Hi-Z (V >2.5 V) - 100 ns t (3) t CC SLQZ DF Chip Select low to output Hi-Z (V <2.5 V) - 200 ns CC t t Delay to output low - 200 ns CHQL PD0 t t Delay to output valid - 200 ns CHQV PD1 t t Erase or Write cycle time - 4 ms W WP 1. Chip Select Input (S) must be brought low for a minimum of t between consecutive instruction cycles. SLSH 2. t + t ≥ 1 / f . CHCL CLCH C 3. Value defined from characterization, not tested in production. 22/31 DocID024752 Rev 5

M93Cx6-A125 DC and AC parameters Figure 10. Synchronous timing (Start and op-code input) (cid:87)(cid:38)(cid:47)(cid:54)(cid:43) (cid:87)(cid:38)(cid:43)(cid:38)(cid:47) (cid:35) (cid:87)(cid:54)(cid:43)(cid:38)(cid:43) (cid:87)(cid:38)(cid:47)(cid:38)(cid:43) (cid:51) (cid:87)(cid:39)(cid:57)(cid:38)(cid:43) (cid:87)(cid:38)(cid:43)(cid:39)(cid:59) (cid:36) (cid:54)(cid:55)(cid:36)(cid:53)(cid:55) (cid:50)(cid:51)(cid:3)(cid:38)(cid:50)(cid:39)(cid:40) (cid:50)(cid:51)(cid:3)(cid:38)(cid:50)(cid:39)(cid:40) (cid:54)(cid:55)(cid:36)(cid:53)(cid:55) (cid:50)(cid:51)(cid:3)(cid:38)(cid:50)(cid:39)(cid:40)(cid:3)(cid:44)(cid:49)(cid:51)(cid:56)(cid:55) (cid:65)(cid:73)(cid:16)(cid:17)(cid:20)(cid:18)(cid:24) Figure 11. Synchronous timing (Read) (cid:38) (cid:87)(cid:38)(cid:47)(cid:54)(cid:47) (cid:54) (cid:87)(cid:39)(cid:57)(cid:38)(cid:43) (cid:87)(cid:38)(cid:43)(cid:39)(cid:59) (cid:87)(cid:38)(cid:43)(cid:52)(cid:57) (cid:87)(cid:54)(cid:47)(cid:54)(cid:43) (cid:39) (cid:36)(cid:81) (cid:36)(cid:19) (cid:87)(cid:54)(cid:47)(cid:52)(cid:61) (cid:87)(cid:38)(cid:43)(cid:52)(cid:47) (cid:43)(cid:76)(cid:16)(cid:61) (cid:52) (cid:52)(cid:20)(cid:24)(cid:18)(cid:52)(cid:26) (cid:52)(cid:19) (cid:36)(cid:39)(cid:39)(cid:53)(cid:40)(cid:54)(cid:54)(cid:3)(cid:44)(cid:49)(cid:51)(cid:56)(cid:55) (cid:39)(cid:36)(cid:55)(cid:36)(cid:3)(cid:50)(cid:56)(cid:55)(cid:51)(cid:56)(cid:55) (cid:36)(cid:44)(cid:19)(cid:19)(cid:27)(cid:21)(cid:19)(cid:38) Figure 12. Synchronous timing (Write) (cid:87)(cid:54)(cid:47)(cid:38)(cid:43) (cid:35) (cid:87)(cid:38)(cid:47)(cid:54)(cid:47) (cid:51) (cid:87)(cid:39)(cid:57)(cid:38)(cid:43) (cid:87)(cid:38)(cid:43)(cid:39)(cid:59) (cid:87)(cid:54)(cid:47)(cid:54)(cid:43) (cid:36) (cid:36)(cid:81) (cid:36)(cid:19)(cid:18)(cid:39)(cid:19) (cid:87)(cid:54)(cid:43)(cid:52)(cid:57) (cid:87)(cid:54)(cid:47)(cid:52)(cid:61) (cid:43)(cid:76)(cid:16)(cid:61) (cid:49) (cid:37)(cid:56)(cid:54)(cid:60) (cid:53)(cid:40)(cid:36)(cid:39)(cid:60) (cid:87)(cid:58) (cid:36)(cid:39)(cid:39)(cid:53)(cid:40)(cid:54)(cid:54)(cid:18)(cid:39)(cid:36)(cid:55)(cid:36)(cid:3)(cid:44)(cid:49)(cid:51)(cid:56)(cid:55) (cid:58)(cid:53)(cid:44)(cid:55)(cid:40)(cid:3)(cid:38)(cid:60)(cid:38)(cid:47)(cid:40) (cid:65)(cid:73)(cid:16)(cid:17)(cid:20)(cid:18)(cid:25) DocID024752 Rev 5 23/31 30

Package mechanical data M93Cx6-A125 12 Package mechanical data In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK® packages, depending on their level of environmental compliance. ECOPACK® specifications, grade definitions and product status are available at: www.st.com. ECOPACK® is an ST trademark. 24/31 DocID024752 Rev 5

M93Cx6-A125 Package mechanical data Figure 13. SO8 narrow – 8 lead plastic small outline, 150 mils body width, package outline (cid:75)(cid:3)(cid:91)(cid:3)(cid:23)(cid:24)(cid:219) (cid:36)(cid:21) (cid:36) (cid:70) (cid:70)(cid:70)(cid:70) (cid:69) (cid:72) (cid:19)(cid:17)(cid:21)(cid:24)(cid:3)(cid:80)(cid:80) (cid:39) (cid:42)(cid:36)(cid:56)(cid:42)(cid:40)(cid:3)(cid:51)(cid:47)(cid:36)(cid:49)(cid:40) (cid:78) (cid:27) (cid:40)(cid:20) (cid:40) (cid:20) (cid:36)(cid:20) (cid:47) (cid:47)(cid:20) (cid:54)(cid:50)(cid:16)(cid:36)(cid:66)(cid:57)(cid:21) 1. Drawing is not to scale. Table 15. SO8 narrow – 8 lead plastic small outline, 150 mils body width, package data millimeters inches(1) Symbol Typ Min Max Typ Min Max A - - 1.75 - - 0.0689 A1 - 0.1 0.25 - 0.0039 0.0098 A2 - 1.25 - - 0.0492 - b - 0.28 0.48 - 0.011 0.0189 c - 0.17 0.23 - 0.0067 0.0091 ccc - - 0.1 - - 0.0039 D 4.9 4.8 5 0.1929 0.189 0.1969 E 6 5.8 6.2 0.2362 0.2283 0.2441 E1 3.9 3.8 4 0.1535 0.1496 0.1575 e 1.27 - - 0.05 - - h - 0.25 0.5 - 0.0098 0.0197 k - 0° 8° - 0° 8° L - 0.4 1.27 - 0.0157 0.05 L1 1.04 - - 0.0409 - - 1. Values in inches are converted from mm and rounded to 4 decimal digits. DocID024752 Rev 5 25/31 30

Package mechanical data M93Cx6-A125 Figure 14. TSSOP8 – 8 lead thin shrink small outline, package outline (cid:24) (cid:1012) (cid:1009) (cid:272) (cid:28)(cid:1005) (cid:28) (cid:1005) (cid:1008) (cid:626) (cid:4)(cid:1005) (cid:62) (cid:4) (cid:4)(cid:1006) (cid:18)(cid:87) (cid:62)(cid:1005) (cid:271) (cid:286) (cid:55)(cid:54)(cid:54)(cid:50)(cid:51)(cid:27)(cid:36)(cid:48)(cid:66)(cid:57)(cid:21) 1. Drawing is not to scale. Table 16. TSSOP8 – 8-lead thin shrink small outline, package mechanical data millimeters inches(1) Symbol Typ Min Max Typ Min Max A - - 1.200 - - 0.0472 A1 - 0.050 0.150 - 0.0020 0.0059 A2 1.000 0.800 1.050 0.0394 0.0315 0.0413 b - 0.190 0.300 - 0.0075 0.0118 c - 0.090 0.200 - 0.0035 0.0079 CP - - 0.100 - - 0.0039 D 3.000 2.900 3.100 0.1181 0.1142 0.1220 e 0.650 - - 0.0256 - - E 6.400 6.200 6.600 0.2520 0.2441 0.2598 E1 4.400 4.300 4.500 0.1732 0.1693 0.1772 L 0.600 0.450 0.750 0.0236 0.0177 0.0295 L1 1.000 - - 0.0394 - - α - 0° 8° - 0° 8° N 8 8 1. Values in inches are converted from mm and rounded to four decimal digits. 26/31 DocID024752 Rev 5

M93Cx6-A125 Package mechanical data Figure 15. WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm, package outline (cid:39)(cid:21) (cid:39)(cid:21)(cid:18)(cid:21) (cid:39)(cid:68)(cid:87)(cid:88)(cid:80)(cid:3)(cid:60) (cid:39) (cid:36) (cid:37) (cid:72) (cid:51)(cid:76)(cid:81)(cid:3)(cid:6)(cid:20)(cid:3)(cid:44)(cid:39)(cid:3)(cid:80)(cid:68)(cid:85)(cid:78)(cid:76)(cid:81)(cid:74) (cid:51)(cid:76)(cid:81)(cid:3)(cid:6)(cid:20) (cid:40) (cid:40)(cid:21)(cid:18)(cid:21) (cid:40)(cid:21) (cid:54)(cid:72)(cid:72)(cid:3)(cid:61) (cid:39)(cid:72)(cid:87)(cid:68)(cid:76)(cid:79) (cid:21)(cid:91) (cid:68)(cid:68)(cid:68)(cid:35) (cid:46) (cid:49)(cid:59)(cid:3)(cid:69) (cid:69)(cid:69)(cid:69)(cid:45) (cid:38) (cid:36)(cid:37) (cid:21)(cid:91) (cid:68)(cid:68)(cid:68)(cid:35) (cid:11)(cid:49)(cid:39)(cid:16)(cid:20)(cid:12)(cid:3)(cid:91)(cid:3)(cid:72) (cid:71)(cid:71)(cid:71)(cid:45) (cid:38) (cid:55)(cid:82)(cid:83)(cid:3)(cid:89)(cid:76)(cid:72)(cid:90) (cid:37)(cid:82)(cid:87)(cid:87)(cid:82)(cid:80)(cid:3)(cid:89)(cid:76)(cid:72)(cid:90) (cid:39)(cid:68)(cid:87)(cid:88)(cid:80)(cid:3)(cid:60) (cid:18)(cid:18) (cid:70)(cid:70)(cid:70)(cid:35) (cid:38) (cid:72)(cid:72)(cid:72)(cid:35) (cid:36) (cid:54)(cid:72)(cid:68)(cid:87)(cid:76)(cid:81)(cid:74)(cid:3)(cid:83)(cid:79)(cid:68)(cid:81)(cid:72) (cid:36)(cid:20) (cid:47) (cid:47)(cid:22) (cid:47)(cid:20) (cid:54)(cid:76)(cid:71)(cid:72)(cid:3)(cid:89)(cid:76)(cid:72)(cid:90) (cid:72)(cid:18)(cid:21) (cid:72) (cid:55)(cid:72)(cid:85)(cid:80)(cid:76)(cid:81)(cid:68)(cid:79)(cid:3)(cid:87)(cid:76)(cid:83) (cid:39)(cid:72)(cid:87)(cid:68)(cid:76)(cid:79)(cid:3)(cid:179)(cid:61)(cid:180) (cid:36)(cid:19)(cid:60)(cid:22)(cid:66)(cid:48)(cid:40)(cid:66)(cid:57)(cid:22) 1. Drawing is not to scale. 2. The central pad (the area E2 by D2 in the above illustration) must be either connected to Vss or left floating (not connected) in the end application. DocID024752 Rev 5 27/31 30

Package mechanical data M93Cx6-A125 Table 17. WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm pitch, mechanical data millimeters inches(1) Symbol Min. Typ. Max. Min. Typ. Max. A 0.700 0.750 0.800 0.0276 0.0295 0.0315 A1 0.025 0.045 0.065 0.0010 0.0018 0.0026 b 0.200 0.250 0.300 0.0079 0.0098 0.0118 D 1.900 2.000 2.100 0.0748 0.0787 0.0827 E 2.900 3.000 3.100 0.1142 0.1181 0.1220 e - 0.500 - - 0.0197 - L1 - - 0.150 - - 0.0059 L3 0.300 - - 0.0118 - - D2 1.050 - 1.650 0.0413 - 0.0650 E2 1.050 - 1.450 0.0413 - 0.0571 K 0.400 - - 0.0157 - - L 0.300 - 0.500 0.0118 - 0.0197 NX(2) 8 ND(3) 4 aaa 0.150 0.0059 bbb 0.100 0.0039 ccc 0.100 0.0039 ddd 0.050 0.0020 eee(4) 0.080 0.0031 1. Values in inches are converted from mm and rounded to four decimal digits. 2. NX is the number of terminals. 3. ND is the number of terminals on “D” sides. 4. Applied for exposed die paddle and terminals. Exclude embedding part of exposed die paddle from mea- suring. 28/31 DocID024752 Rev 5

M93Cx6-A125 Part numbering 13 Part numbering Table 18. Ordering information scheme Example: M93C 86 R MN 3 T P /K Device type M93 = MICROWIRE serial EEPROM Device function 86 = 16 Kbit (2048 x 8) 76 = 8 Kbit (1024 x 8) 66 = 4 Kbit (512 x 8) 56 = 2 Kbit (256 x 8) 46 = 1 Kbit (128 x 8) Operating voltage R = V = 1.8 to 5.5 V CC Package(1) MN = SO8 (150 mils width) DW = TSSOP8 (169 mils width) MF = WFDFPN8 (2 x 3 mm) Device grade 3 = Device tested with high reliability certified flow(2) Automotive temperature range (–40 to 125 °C) Packing T = tape and reel packing blank = tube packing Plating technology P or G = ECOPACK2® Process /K = Manufacturing technology code 1. All packages are ECOPACK2® (RoHS compliant and free of brominated, chlorinated and antimony-oxide flame retardants). 2. The high reliability certified flow (HRCF) is described in quality note QNEE9801. Please ask your nearest ST sales office for a copy. Engineering samples Parts marked as “ES”, “E” or accompanied by an Engineering Sample notification letter, are not yet qualified and therefore not yet ready to be used in production and any consequences deriving from such usage will not be at ST charge. In no event, ST will be liable for any customer usage of these engineering samples in production. ST Quality has to be contacted prior to any decision to use these Engineering samples to run qualification activity. For a list of available options (speed, package, etc.) or for further information on any aspect of this device, please contact your nearest ST sales office. DocID024752 Rev 5 29/31 30

Revision history M93Cx6-A125 14 Revision history Table 19. Document revision history Date Revision Changes 07-Aug-2013 1 Initial release Document status changed from “Preliminary data” to “Production data”. Updated: – Features: “data retention” bullet – Table 9: Operating conditions (M93Cx6-A125) – “T ” row in Table 14: AC characteristics 02-Dec-2013 2 SLQZ – Note (1) under Table 8: Absolute maximum ratings – Table 13: DC characteristics – Figure 15: WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm, package outline. Renamed Figure 11: Synchronous timing (Read) and Figure 12: Synchronous timing (Write). Delete sentence: “The VCC rise time must not vary faster than 1 13-Aug-2014 3 V/μs.” inside Section 3.1.2 Updated packing inside Chapter Table 18. Updated ECOPACK® to ECOPACK2® Updated V value inside Table 13: DC characteristics. 02-Sept-2014 4 IH Added note 2. in Figure 15. Updated Table 18: Ordering information scheme Updated note 2. in Table 8: Absolute maximum ratings Updated Figure 15: WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm, package outline 16-Jan-2015 5 Updated Table 17: WFDFPN8 (MLP8) – 8-lead very thin fine pitch dual flat package no lead 2 x 3 mm, 0.5 mm pitch, mechanical data Added paragraph: Engineering samples on page 29 30/31 DocID024752 Rev 5

M93Cx6-A125 IMPORTANT NOTICE – PLEASE READ CAREFULLY STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers’ products. No license, express or implied, to any intellectual property right is granted by ST herein. Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product. ST and the ST logo are trademarks of ST. All other product or service names are the property of their respective owners. Information in this document supersedes and replaces information previously supplied in any prior versions of this document. © 2015 STMicroelectronics – All rights reserved DocID024752 Rev 5 31/31 31