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MT41K256M16TW-107:P

4Gbit DDR3L SDRAM, 1866 MT/s, 1.35V, 96-ball FBGA

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Manufacturer Part：

MT41K256M16TW-107:P

Package：

96-ball FBGA (8mm x 14mm x 0.92mm)

Description

The MT41K256M16TW-107:P is a 4Gbit (256M x 16) DDR3L SDRAM manufactured by Micron Technology, operating at 1.35V with backward compatibility to 1.5V DDR3 platforms. It features an 8n-prefetch double data rate architecture supporting 1866 MT/s data rate (933 MHz clock) with CL=13 timing. The device incorporates 8 internal banks for concurrent operation, nominal and dynamic on-die termination (ODT), differential data strobe (DQS/DQS#), programmable CAS latency, burst length of 8 with burst chop 4 on-the-fly selection, self-refresh with temperature-compensated auto-refresh, write leveling, and ZQ calibration. Fabricated in 20nm process and packaged in a 96-ball FBGA (8mm x 14mm), it operates over the commercial temperature range of 0°C to 95°C, making it suitable for embedded computing, networking equipment, industrial automation, consumer electronics, and automotive infotainment systems.

Product Introduction:MT41K256M16TW-107:P Product Introduction

The MT41K256M16TW-107:P is a 4Gbit (512MB) DDR3L SDRAM device manufactured by Micron Technology, organized as 256 Meg x 16 bits. It belongs to the MT41K series of low-voltage DDR3 SDRAM devices, operating at VDD = VDDQ = 1.35V (range: 1.283V to 1.45V) while maintaining backward compatibility with 1.5V DDR3 applications. The device uses an 8n-prefetch architecture with a double data rate interface that transfers two data words per clock cycle at the I/O pins.

The -107 speed grade supports a maximum clock frequency of 933 MHz (1866 MT/s data rate) with CL = 13 timing (tRCD = 13.91ns, tRP = 13.91ns). The device incorporates 8 internal banks for concurrent operation, enabling high bandwidth by hiding row precharge and activation time. It features nominal and dynamic on-die termination (ODT) for data, strobe, and mask signals, differential bidirectional data strobe (DQS/DQS#), and differential clock inputs (CK/CK#).

Fabricated in 20nm process technology, the device is packaged in a 96-ball FBGA (8mm x 14mm, height 0.92mm) with commercial temperature range (0°C to 95°C). Key features include programmable CAS latency (CL), programmable posted CAS additive latency (AL), programmable CAS write latency (CWL), fixed burst length of 8 (BL8) and burst chop of 4 (BC4) with on-the-fly selection, self-refresh mode with temperature-compensated auto-refresh, write leveling, multipurpose register, and output driver calibration via ZQ pin. The device supports refresh intervals of 64ms at 0-85°C and 32ms at 85-95°C with 8192 refresh cycles.

Working Principle:MT41K256M16TW-107:P Working Principle

The MT41K256M16TW-107:P employs a double data rate (DDR) architecture based on an 8n-prefetch scheme. A single read or write operation consists of a single 8n-bit-wide, four-clock-cycle data transfer at the internal DRAM core, paired with eight corresponding n-bit-wide, one-half-clock-cycle data transfers at the I/O pins. This architecture enables high bandwidth while keeping the internal DRAM core frequency at one-eighth of the external data rate.

Clock and Command Subsystem: The device operates from differential clock inputs (CK and CK#). All control, command, and address signals are registered at the positive edge of CK. Commands are decoded from the CS#, RAS#, CAS#, WE#, and ACT# pins to initiate operations such as ACTIVATE, READ, WRITE, PRECHARGE, REFRESH, and mode register access.

Memory Array Subsystem: The 4Gbit density is organized as 256 Meg x 16 with 8 internal banks. Each bank contains 32K rows (A[14:0]), 1K columns (A[9:0]), and a 2KB page size. The 8-bank architecture allows concurrent bank operations, hiding row access latency through bank interleaving and improving overall throughput.

Data Path Subsystem: Data is transferred via the 16-bit DQ bus with differential data strobe signals (DQS/DQS#). During WRITE operations, DQS is center-aligned with data for reliable capture. During READ operations, the DRAM transmits data edge-aligned to DQS. The device supports BL8 (burst length 8) and BC4 (burst chop 4) with on-the-fly selection via the mode register.

On-Die Termination (ODT) Subsystem: The device supports both nominal and dynamic ODT for DQ, DQS, DQS#, and DM signals. ODT values are programmable through mode registers (RTT_NOM, RTT_WR), providing signal integrity optimization without external termination components. Dynamic ODT allows the termination value to change on-the-fly during write operations.

Refresh Subsystem: The device requires 8192 refresh commands every 64ms (0-85°C) or 32ms (85-95°C). Self-refresh mode with auto-refresh (SRT) enables autonomous refresh operation during low-power standby. The ZQ calibration subsystem performs periodic output driver impedance calibration against an external 240-ohm resistor to maintain signal integrity over temperature and voltage variations.

Pin Description:MT41K256M16TW-107:P Pin Definition and Functions

Pin Group	Pin / Ball	Type	Default Function	Description
Clock	CK, CK#	I	Differential Clock Input	All commands are latched on the rising edge of CK
Chip Select	CS#	I	Chip Select (Active Low)	Enables or disables the command decoder
Command	RAS#, CAS#, WE#	I	Command Inputs	Define the command being entered along with CS#
Activate	ACT#	I	Activate Input	Activates the specified row in the selected bank
Address	A[14:0]	I	Address Inputs	Provide row and column address; also used for mode register set and burst chop
Bank Address	BA[2:0]	I	Bank Select	Select which bank is active for READ, WRITE, or ACTIVATE
Data	DQ[15:0]	I/O	Data Bus	Bi-directional data bus, 16-bit wide
Data Strobe	DQS, DQS#	I/O	Differential Data Strobe	Bi-directional differential strobe for data capture
Data Mask	DM	I	Data Mask Input	Masks write data; sampled during write operations
ODT	ODT	I	On-Die Termination Enable	Enables ODT for DQ/DQS/DM signals during reads
Clock Enable	CKE	I	Clock Enable (Active High)	Enables internal clock signals and device operation
Reset	RESET#	I	Active Low Reset	Asynchronous reset; clears all internal state
Calibration	ZQ	I	Impedance Calibration Reference	Connected to external 240-ohm resistor for ODT/driver calibration
Power	VDD	P	Core Power Supply	1.35V nominal (1.283V – 1.45V)
Power	VDDQ	P	I/O Power Supply	1.35V nominal (1.283V – 1.45V)
Power	VREFCA	P	Reference Voltage (CA)	Command/Address reference voltage = VDD/2
Power	VREFDQ	P	Reference Voltage (DQ)	Data reference voltage = VDDQ/2
Ground	VSS	G	Ground	Device ground connections

Application Scenarios:In which products and applications isMT41K256M16TW-107:P used

Application Scenario	Role of MT41K256M16TW-107:P	Key Features Utilized	Typical Pairing
Embedded Computing (ARM/FPGA Systems)	Main system memory providing 512MB capacity with high bandwidth for processor code execution and data buffering	1866 MT/s data rate, 16-bit bus width, low 1.35V power, ODT for signal integrity	ARM Cortex-A series SoC (e.g., i.MX8, RK3399), FPGA (e.g., Xilinx Zynq UltraScale+)
Networking and Telecom Equipment	Packet buffering and lookup table storage in routers, switches, and baseband processors	8-bank interleaving for concurrent access, BC4/BL8 on-the-fly, high MT/s throughput	Network SoC (e.g., NXP Layerscape), Ethernet switch ASIC
Industrial Automation and HMI	Operating system memory for industrial PCs, PLCs, and HMI panels requiring reliable DRAM in commercial temperature range	Self-refresh with auto-refresh (SRT), ZQ calibration, 0-95°C operation	Industrial MCU/MPU (e.g., TI Sitara, STM32MP1)
Consumer Electronics (Smart TV, STB)	Video frame buffer and application memory in smart TVs, set-top boxes, and streaming devices	256Mx16 organization, low standby current, backward compatible with 1.5V DDR3 platforms	Media SoC (e.g., Realtek RTD1319, Amlogic S905X4)
Automotive Infotainment (Non-Safety)	System memory for in-vehicle infotainment (IVI) and navigation systems at commercial temperature grade	1.35V low-power operation, write leveling, programmable ODT	Automotive SoC (e.g., Renesas R-Car, NXP i.MX8XL)

Alternative Models:What chips are recommended as replacements for MT41K256M16TW-107:P

Model	Compatibility Type	Compatibility Level	Key Differences	Manufacturer
AS4C256M16D3-12BCN	Functionally Similar	Partially Compatible	DDR3L 256Mx16, 1600 MT/s (slower), 96-ball FBGA, timing differences require firmware adjustment	Alliance Memory
IS46TR16256AL-15HBLA1-TR	Functionally Similar	Partially Compatible	DDR3L 256Mx16, 1333 MT/s, 96-ball FBGA, lower speed grade, requires timing reconfiguration	ISSI
MT41K256M16TW-107 IT:P	Series Variant	Fully Compatible	Industrial temp range (-40°C to 95°C), same speed grade and pinout, direct drop-in replacement for wider temp range	Micron
MT41K256M16TW-107 AIT:P	Series Variant	Fully Compatible	Automotive grade (AEC-Q100), -40°C to 95°C, higher unit price ($7.66+), same pinout and functionality	Micron
W632GU6MB-12	Functionally Similar	Partially Compatible	DDR3L 256Mx16, 1600 MT/s, 96-ball FBGA, lower speed, different timing parameters	Winbond
EM6AB16CWKG-12H	Functionally Similar	Partially Compatible	DDR3L 256Mx16, 1600 MT/s, 96-ball FBGA, lower data rate, requires timing and mode register adjustments	Etron Technology