MPC823ZQ66B2T Product Information|NXP

Buy Options

Operating Features

ParameterValue
Security Status
COMPANY PUBLIC
Description
PORTABLE SYSTEM MPU
ParameterValue
Number of pins
256
Package Style
BGA

Environmental

Part/12NCPbFreeEU RoHSRHF Indicator2nd Level InterconnectREACH SVHCWeight (mg)
MPC823ZQ66B2T(935309533557)
No
No
N
e0
REACH SVHC
1724.05

Quality

Part/12NCSafe Assure Functional SafetyMoisture Sensitivity Level (MSL)Peak Package Body Temperature (PPT) (C°)Maximum Time at Peak Temperatures (s)
Lead SolderingLead SolderingLead Free SolderingLead SolderingLead Free Soldering
MPC823ZQ66B2T
(935309533557)
No
3
260
260
40
40

Shipping

Part/12NCHarmonized Tariff (US)DisclaimerExport Control Classification Number (US)
MPC823ZQ66B2T
(935309533557)
854231
3A991A2

Discontinued and Replacement Part Data

Part/12NCDiscontinuance NoticeLast Time Buy DateLast Time Delivery Date
MPC823ZQ66B2T
(935309533557)
-
2013-12-03
2014-12-03

Product Change Notice

Part/12NCIssue DateEffective DatePCNTitle
MPC823ZQ66B2T
(935309533557)
2020-12-152020-12-16202011011INXP Will Add a Sealed Date to the Product Label

More about MPC823

The MPC823 microprocessor is a versatile, one-chip integrated microprocessor and peripheral combination that can be used in a variety of electronic products. It particularly excels in low-power, portable, image capture and personal communication products. It has a universal serial bus (USB) interface and video display controller, as well as the existing LCD controller of the MPC821 device.

The MPC823 microprocessor integrates a high-performance embedded MPC8xx core with a communication processor module that uses a specialized RISC processor for imaging and communication. The communication processor module can perform embedded signal processing functions for image compression and decompression. It also supports seven serial channels--two serial communication controllers, two serial management controllers, one I²C port, one USB channel, and one serial peripheral interface.

This two-processor architecture consumes power more efficiently than traditional architectures because the communication processor module frees the core from peripheral tasks like imaging and communication.