CY62128ELL-55ZAXET
Active and preferred
RoHS Compliant

CY62128ELL-55ZAXET

Datasheet
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CY62128ELL-55ZAXET
CY62128ELL-55ZAXET
Datasheet

Product details

  • Density
    1 MBit
  • Family
    MoBL™ SRAM
  • Interfaces
    Parallel
  • Lead Ball Finish
    Pure Sn;Ni/Pd/Au
  • Operating Temperature range
    -40 °C to 125 °C
  • Operating Voltage (VCCQ) max
    5.5 V
  • Operating Voltage range
    4.5 V to 5.5 V
  • Organization (X x Y)
    128K x 8
  • Peak Reflow Temp
    260 °C
  • Qualification
    Automotive
  • Speed
    55 ns
Recommended
OPN
CY62128ELL-55ZAXET
Product Status active and preferred
Infineon Package
PG-TSOP-32
Package Name STSOP-32 (51-85094)
Packing Size 1500
Packing Type TAPE & REEL
Moisture Level 3
Moisture Packing DRY
Lead-free No
Halogen Free No
RoHS Compliant Yes
Infineon stock last updated:

Product Status
Active
Infineon Package
PG-TSOP-32
Package Name STSOP-32 (51-85094)
Packing Size 1500
Packing Type TAPE & REEL
Moisture Level 3
Moisture Packing DRY
Lead Free
Halogen Free
RoHS Compliant
CY62128ELL-55ZAXET is a 1-Mbit (128 K × 8) CMOS SRAM for Automotive-E designs, specified for 55 ns access. It runs from 4.5 V to 5.5 V and interfaces to processors with TTL input levels (not CMOS). Typical active current is 1.3 mA at 1 MHz and 11 mA at fmax, with automatic CE power-down standby typically 1 µA (30 µA max). Data I/O is 8-bit with high-Z outputs when deselected. Available in a 32-pin Pb-free STSOP (ZA).

Features

  • 128K × 8 SRAM organization
  • 45 ns read cycle time (tRC)
  • 4.5 V to 5.5 V VCC operation
  • 1.3 mA typ ICC at 1 MHz
  • 1 µA typ standby current
  • Auto CE power-down (ISB2)
  • CE1/CE2 and OE chip controls
  • High-Z outputs when deselected
  • TTL-compatible input levels
  • VIH 2.2 V, VIL 0.8 V thresholds
  • 10 pF max input capacitance
  • tDOE 22 ns OE to data valid

Benefits

  • Fast 45 ns cycles cut latency
  • 5 V supply fits legacy designs
  • 1.3 mA typ lowers active power
  • 1 µA standby extends battery life
  • Auto power-down saves idle energy
  • CE1/CE2 simplify memory expansion
  • High-Z outputs ease bus sharing
  • TTL levels ease MCU/CPU interface
  • Defined thresholds reduce errors
  • Low capacitance eases timing margins
  • 22 ns OE read improves response
  • Lower standby cuts thermal load

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