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MAXIM New Products - DS28EL25 & MAX8967
2013-03-05
DS28EL25

DeepCover Secure Authenticator with 1-Wire SHA-256 and 4Kb User EEPROM

Protect Your Development Investment with Crypto-Strong Authentication and Advanced Physical Security

Description

DeepCover embedded security solutions cloak sensitive data under multiple layers of advanced physical security to provide the industry’s most secure key storage possible. The Deepcover Secure Authenticator (DS28EL25) combines crypto-strong, bidirectional, secure challenge-and-response authentication functionality with an implementation based on the FIPS 180-3-specified Secure Hash Algorithm (SHA-256). A 4Kb user-programmable EEPROM array provides nonvolatile storage of application data and additional protected memory holds a read-protected secret for SHA-256 operations and settings for user memory control. Each device has its own guaranteed unique 64-bit ROM identification number (ROM ID) that is factory programmed into the chip. This unique ROM ID is used as a fundamental input parameter for cryptographic operations and also serves as an electronic serial number within the application. A bidirectional security model enables two-way authentication between a host system and slave-embedded DS28EL25. Slave-to-host authentication is used by a host system to securely validate that an attached or embedded DS28EL25 is authentic. Host-to-slave authentication is used to protect DS28EL25 user memory from being modified by a nonauthentic host. The SHA-256 message authentication code (MAC), which the DS28EL25 generates, is computed from data in the user memory, an on-chip secret, a host random challenge, and the 64-bit ROM ID. The DS28EL25 communicates over the single-contact 1-Wire® bus at overdrive speed. The communication follows the 1-Wire protocol with the ROM ID acting as node address in the case of a multiple-device 1-Wire network. 

Key Features

  • Symmetric Key-Based Bidirectional Secure Authentication Model Based on SHA-256
  • Dedicated Hardware-Accelerated SHA Engine for Generating SHA-256 MACs
  • Strong Authentication with a High Bit Count, User-Programmable Secret, and Input Challenge
  • 4096 Bits of User EEPROM Partitioned Into 16 Pages of 256 Bits
  • User-Programmable and Irreversible EEPROM Protection Modes Including Authentication, Write and Read Protect, and OTP/EPROM Emulation
  • Unique, Factory-Programmed 64-Bit Identification Number
  • Single-Contact 1-Wire Interface Communicates with Host at Up to 76.9kbps
  • Operating Range: 1.8V ±5%, -40°C to +85°C
  • Low-Power 5µA (typ) Standby
  • ±8kV Human Body Model ESD Protection (typ)
  • 6-Pin TDFN Package 


MAX8967

Dual Step-Down Converters with 6 LDOs for Baseband and Applications Processor

Achieve Smaller Component Size and Board Area with This Integrated Solution

Description

The MAX8967 is an µPMIC with two DC-to-DC step-down switching converters and six remote capacitor-capable LDOs. The step-down converters deliver up to 2A of output current independently. Two of the LDOs deliver a load current up to 300mA, while the remaining four deliver up to 150mA. Both step-down converters have remote sense, allowing loads to be placed away from the IC. The IC operates over a 2.6V to 5.5V input supply range.

Fixed-frequency 4.4MHz PWM operation and clocks that are 180° out of phase permit the use of small external components. Under light load conditions, the step-down converters automatically switch to skip mode operation. In skip mode operation, switching occurs only as needed, allowing efficient operation. Placing either of the step-down converters into green mode reduces the quiescent current consumption of that converter to 5µA (typ).

The IC supports dynamic adjustment of the output voltage through its I²C interface. Each step-down converter has two register settings for output voltage and a setting for ramp rate. Also, each step-down converter has a dedicated enable pin and a dedicated VID pin to toggle between the two programmed output voltages. Additionally, an interrupt output is provided, allowing the IC to signal its master. 


Key Features

  • Multi-Output PMIC in a Compact Package
    • Two 2A Step-Down Converters with Remote Output Voltage Sensing
    • Two 300mA LDOs
    • Four 150mA LDOs
    • < 1µA Shutdown Current
    • 2.32mm x 2.44mm Package
  • Versatile Step-Down Converters
    • Programmable Output Voltage (0.6V to 3.3875V) Through I²C Bus
    • Programmable Output Voltage Slew Rate (12.5mV/µs to 50mV/µs)
    • Dynamic Switching Between Two Output Voltages Through VID_ Pins
  • Efficient Step-Down Converters
    • Over 95% Efficiency with Internal Synchronous Rectifier
    • Automatic Skip Mode at Light Loads
    • Low 61µA (typ) Quiescent Current
    • 5µA (typ) Green Mode per Step-Down Converter
  • Programmable LDOs
    • Programmable Output Voltage (0.8V to 3.95V in 50mV Steps)
    • Programmable Soft-Start Slew Rate (5mV/µs–100mV/µs)
  • Reduces Component Size and Board Area Solution
    • 4.4MHz Step-Down Switching Allows for 1µH Inductors
    • COUT = 1µF for All LDOs
    • Reduced Board Space with Remote Capacitor LDOs
    • Internal Feedback for Step-Down Converters and LDOs 

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