Document Number: MCIMX31C Freescale Semiconductor Rev. 4.3, 2/2010 Data Sheet: Technical Data MCIMX31C and MCIMX31LC Package Information Plastic Package MCIMX31C and Case 1931 19 x 19 mm, 0.8 mm Pitch MCIMX31LC Ordering Information Multimedia Applications See Table 1 on page 3 for ordering information. Processors for Industrial and Automotive Products Contents 1 Introduction Introduction . 1 Features 2 The MCIMX31C and MCIMX31LC multimedia Ordering Information 3 applications processors represent the next step in Block Diagram .4 low-power, high-performance application processors. Functional Description and Application Information 4 Unless otherwise specified, the material in this data sheet ARM11 Microprocessor Core 4 is applicable to both the MCIMX31C and MCIMX31LC Module Inventory .6 Signal Descriptions .9 processors and referred to singularly throughout this Electrical Characteristics .9 document as MCIMX31C. The MCIMX31LC does not Chip-Level Conditions .9 include a graphics processing unit (GPU). Supply Power-Up/Power-Down Requirements and Restrictions 15 Based on an ARM11 microprocessor core, the Module-Level Electrical Specifications 16 MCIMX31C provides the performance with low power Package Information and Pinout 99 consumption required by modern digital devices such MAPBGA Production Package 473 19 x 19 mm, as: 0.8 mm Pitch 100 Automotive infotainment and navigation Product Documentation 106 Revision History 107 Industrial control (human interface) The MCIMX31C takes advantage of the ARM1136JF-S core running at 400 MHz, and is optimized for minimal power consumption using the most advanced techniques for power saving (DVFS, power gating, clock gating). With 90 nm technology and dual-Vt transistors (two threshold voltages), the This document contains information on a new product. Specifications and information herein are subject to change without notice. Freescale Semiconductor, Inc., 20052010. All rights reserved.Introduction MCIMX31C provides the optimal performance versus leakage current balance. The performance of the MCIMX31C is boosted by a multi-level cache system, and features peripheral devices such as an MPEG-4 Hardware Encoder (VGA, 30 fps), an Autonomous Image Processing Unit, a Vector Floating Point (VFP11) co-processor, and a RISC-based SDMA controller. The MCIMX31C supports connections to various types of external memories, such as DDR, NAND Flash, NOR Flash, SDRAM, and SRAM. The MCIMX31C can be connected to a variety of external devices using technology, such as high-speed USB2.0 OTG, ATA, MMC/SDIO, and compact flash. 1.1 Features The MCIMX31C is designed for automotive and industrial markets where extended operating temperature is required. They provide low-power solutions for high-performance demanding multimedia and graphics applications. The MCIMX31C is built around the ARM11 MCU core and implemented in the 90 nm technology. The systems include the following features: Multimedia and floating-point hardware acceleration supporting: MPEG-4 real-time encode of up to VGA at 30 fps MPEG-4 real-time video post-processing of up to VGA at 30 fps Video conference call of up to QCIF-30 fps (decoder in software), 128 kbps Video streaming (playback) of up to VGA-30 fps, 384 kbps 3D graphics and other applications acceleration with the ARM tightly-coupled Vector Floating Point co-processor On-the-fly video processing that reduces system memory load (for example, the power-efficient viewfinder application with no involvement of either the memory system or the ARM CPU) Advanced power management Dynamic voltage and frequency scaling Multiple clock and power domains Independent gating of power domains Multiple communication and expansion ports including a fast parallel interface to an external graphic accelerator (supporting major graphic accelerator vendors) Security MCIMX31C/MCIMX31LC Technical Data, Rev. 4.3 2 Freescale Semiconductor