48L64064-Kbit SPI Serial EERAMSerial SRAM FeaturesPackage Types (not to scale) • Unlimited Reads/Unlimited Writes: - Standard serial SRAM protocol 8-Lead SOIC - Symmetrical timing for reads and writes (Top View) • SRAM Array: CS 1 8 VCC - 8,192 x 8 bit • High-Speed SPI Interface: SO 2 7 HOLD - Up to 66 MHz VCAP 3 6 SCK - Schmitt Trigger inputs for noise suppression VSS 4 5 SI • Low-Power CMOS Technology: - Active current: 5 mA (maximum) - Standby current: 200 μA (at 85°C maximum) 8-Pad TDFN - Hibernate current: 3 μA (at 85°C maximum) (Top View) CS 1 8 VCC Hidden EEPROM Backup Features SO 2 7 HOLD • Cell-Based Nonvolatile Backup: VCAP 3 6 SCK - Mirrors SRAM array cell-for-cell VSS 4 5 SI - Transfers all data to/from SRAM cells in parallel (all cells at same time) • Invisible-to-User Data Transfers: Pin Function Table - VCC level monitored inside device NameFunction - SRAM automatically saved on power disrupt - SRAM automatically restored on VCC return CS Chip Select Input • 100,000 Backups Minimum (at 85°C) SO Serial Data Output • 100 Years Retention (at 55°C) VCAP External Capacitor Other Features of the 48L640 VSS Ground SI Serial Data Input • Operating Voltage Range: 2.7V-3.6V • Temperature Ranges: SCK Serial Clock Input - Industrial (I): -40°C to +85°C HOLD Hold Input • ESD protection: >2,000V VCC Supply Voltage Packages • 8-Lead SOIC • 8-Lead TDFN 2018-2019 Microchip Technology Inc. Preliminary DS20006055B-page 1 Document Outline Serial SRAM Features Hidden EEPROM Backup Features Other Features of the 48L640 Packages Package Types (not to scale) Pin Function Table General Description Block Diagram Normal Device Operation Vcc Power-Off Event 1.0 Electrical Characteristics Absolute Maximum Ratings† TABLE 1-1: DC Characteristics TABLE 1-2: AC Characteristics TABLE 1-3: AC Test Conditions 2.0 Pin Descriptions TABLE 2-1: Pin Function Table 2.1 Chip Select (CS) 2.2 Serial Output (SO) 2.3 Serial Input (SI) 2.4 Serial Clock (SCK) 2.5 Hold (HOLD) 3.0 Memory Organization 3.1 Data Array Organization 3.2 16-Bit Nonvolatile User Space 3.3 Device Registers 3.3.1 STATUS Register 4.0 Functional Description FIGURE 4-1: SPI Mode 0 and Mode 3 4.1 Interfacing the 48L640 on the SPI Bus 4.1.1 Selecting the Device 4.1.2 Sending Data to the Device 4.1.3 Receiving Data from the Device 4.2 Device Opcodes 4.2.1 Serial Opcode 4.2.2 Hold Function FIGURE 4-2: Hold Mode 5.0 Write Enable and Disable 5.1 Write Enable Instruction (WREN) FIGURE 5-1: WREN Waveform 5.2 Write Disable Instruction (WRDI) FIGURE 5-2: WRDI Waveform 6.0 STATUS Register 6.1 Block Write-Protect Bits TABLE 6-2: Block Write-Protect Bits 6.2 Write Enable Latch 6.3 Ready/Busy Status Latch 6.4 Read STATUS Register (RDSR) FIGURE 6-1: RDSR Waveform 6.5 Write STATUS Register (WRSR) FIGURE 6-2: WRSR Waveform 7.0 Read Operations 7.1 Reading from the SRAM (READ) FIGURE 7-1: Read SRAM (READ) Waveform 7.2 Read Last Successfully Written Address (RDLSWA) FIGURE 7-2: Read Last Successfully Written Address Waveform 8.0 Write Commands 8.1 Write Instruction Sequences 8.1.1 SRAM Byte Write FIGURE 8-1: SRAM Byte Write Waveform 8.1.2 Continuous Write FIGURE 8-2: Continuous SRAM Write Waveform 9.0 Nonvolatile User Space Access 9.1 Write Nonvolatile User Space (WRNUR) 9.2 Read Nonvolatile User Space (RDNUR) 10.0 Secure Operations 10.1 Secure Write 10.2 Secure Read TABLE 10-1: Secure Write Bits 11.0 Store/Recall Operations 11.1 Automatic Store on Any Power Disruption 11.2 Automatic Recall to SRAM 11.3 Software Store Command FIGURE 11-1: Software Store 11.4 Software Recall Command FIGURE 11-2: Software Recall 11.5 Polling Routine FIGURE 11-3: Polling Flow 12.0 Hibernation FIGURE 12-1: Hibernate Waveform 13.0 Trip Voltage 13.1 Power Switchover 14.0 Packaging Information 14.1 Package Marking Information Product ID System Trademarks Worldwide Sales and Service