Intel IP-4MTS6B  External keyboard & mouse connector 6-pins pin-header CN8, Pin # Assignment

Page 31

 

 

 

 

 

 

Installations

 External keyboard & mouse connector (6-pins pin-header): CN8

Pin #

 

Assignment

Pin #

Assignment

1

 

MS Clock

2

 

 

MS Data

3

 

KB Clock

4

 

 

KB Data

5

 

Ground

6

 

 

VCC

y Figure:

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1

6

 COM2 RS-232 serial port connector (10-pins pin-header): CN9

Pin #

 

Assignment

Pin #

Assignment

1

 

DCD

2

 

 

DSR

2

 

RXD

4

 

 

RTS

3

 

TXD

6

 

 

CTS

4

 

DTR

8

 

 

RI

5

 

Ground

10

 

 

5V

y Figure:

9

1

10

2

25

Image 31
Contents Embedded Board IP-4MTS6BPage Trademark CopyrightContents Award Bios Setup Page Unpacking IP-4MTS6B / 4GMS6F Series Section IntroductionIntroduction Description Features Graphic & EthernetUltra ATA/66/100 4 I/O Shield ConnectorHardware Monitoring 6 IP-4MTS6B / IP-4GMS6F Series Overview Power-On/Off RemoteAddr Ctrl Data System Block Diagram¡ Dram Module Specifications ¡ Processor IP-4MTS6B¡ External Connector ¡ Chipset IP-4MTS6B¡ Bios System Installation CPU Installation IP-4MTS6B series Section InstallationsRemoving a CPU Heat Sink InstallationDimm Memory and 184-pins Socket Memory Module InstallationRemoving a Dimm Setting Jumpers Board Layout IP-4MTS6B Jumper & Connector LocationJumpers Functions Jumper Setting Table for Jumper Location DescriptionLocation  Clear Cmos setting select JP4 FunctionLocation  Auto power on setting select JP5 Function JP4 LCD power setting select JP6 Function Connector’s Description IP-4MTS6B Connector Location Connectors Functions Table for Connector’s Location DescriptionVCC  IrDA connector 5-pins pin-header CN4 Pin # Assignment Keyboard data Ground  USB 2/3 connectors 4-pins female CN6 Pin # Assignment  USB 0/1 connectors 4-pins female CN7 Pin # Assignment  COM2 RS-232 serial port connector 10-pins pin-header CN9  External keyboard & mouse connector 6-pins pin-header CN8Pin # Assignment YAM0 YAM1 YAP0 YAP1  System fan power connector CN13 Pin # Assignment  Audio Lineout pin-header CN15 Pin # Assignment  CPU fan power connector CN14 Pin # AssignmentDRQ Index  Cdin pin-header CN18 Pin # Assignment  20-pins ATX power connector CN19 Pin # AssignmentNo Connect HDD LED Reset PWR onSpeaker PWR LED Keylock LAN1 LED pin-header JP2 Pin # Assignment Bios Instructions Section Award Bios SetupAdvanced Chipset Features Setup ItemsStandard Cmos Features Advanced Bios FeaturesLoad Optimized Defaults Power Management SetupPnP / PCI Configuration Load Fail-Safe DefaultsEGA/VGA Extended Memory Option N/A Base Memory Option N/ATotal Memory Option N/A IDE HDD Auto-Detection Options Press Enter IDE AdaptersAward Bios Setup HDD-0 CPU FeatureThermal Management Quick Power On Self TestFirst / Second / Third Boot Device Boot Other DeviceTypematic Delay Msec Boot Up Floppy SeekBoot Up NumLock Status Typematic Rate SettingReport No FDD For WIN95 Apic ModeMPS Version Control For OS OS Select For Dram 64MBCAS Latency Time Dram Timing SelectableSystem Bios Cacheable Active To Precharge DelayDram RAS# To CAS# Delay Dram Data Integrity ModeBoot Display Delayed TransactionDelay Prior To Thermal On-Chip VGA SettingOnChip Primary/Secondary PCI IDE OnChip IDE DeviceOnboard Device IDE HDD Block ModeIDE Primary/Secondary Master/Slave PIO IDE Primary/Secondary Master/Slave UdmaOnboard LAN1/2 Device USB Keyboard SupportUSB Mouse Support AC97 AudioUR2 Duplex Mode KB Power on Password Option EnterUart Mode Select IR Transmission DelayECP Mode Use DMA Use IR PinsParallel Port Mode EPP Mode SelectDpms Video Off MethodSYNC+Blank Blank ScreenSuspend Type Suspend ModeHDD Power Down Video Off In SuspendPM Events Reset Configuration Data PnP/PCI ConfigurationsPCI/VGA Palette Snoop Resource controlled byIRQ Resources IRQsVcore / Vbat Auto Detect PCI CLK Frequency/Voltage ControlSpread Spectrum Load Fail-Safe Defaults Enter Password Supervisor/User Password SettingQuit without saving Y/N? Y Exit Selecting Save & Exit SetupSave to Cmos and Exit Y/N? Y Exit Without Saving

IP-4MTS6B specifications

The Intel IP-4MTS6B is a sophisticated and high-performance microprocessor designed for a wide range of applications, particularly in embedded systems and industrial automation. Known for its energy efficiency and robust capabilities, the IP-4MTS6B is a prominent choice for developers seeking reliability and superior performance in demanding environments.

One of the main features of the Intel IP-4MTS6B is its quad-core architecture, which provides exceptional processing power and allows for parallel task execution. This multi-core design enhances the overall throughput while minimizing lag and latency, making it ideal for applications that require real-time data processing. The processor supports advanced instruction sets, including SSE and AVX, enabling it to handle complex calculations efficiently.

Another key characteristic of the Intel IP-4MTS6B is its support for various connectivity options. It comes equipped with multiple I/O interfaces, including USB, UART, and Ethernet, which facilitate seamless communication with other devices and networks. This versatility makes it suitable for Internet of Things (IoT) applications, where connectivity and interoperability are critical.

The technology behind the Intel IP-4MTS6B also incorporates enhanced thermal management features, allowing it to operate within a wide temperature range. This thermal resilience ensures the processor maintains performance in harsh environments, making it perfect for industrial and automotive applications.

In terms of memory support, the IP-4MTS6B can interface with both DDR3 and DDR4 RAM, providing flexibility in system design and enabling higher memory bandwidth for improved performance. The processor's integrated graphics engine further enhances its capabilities, allowing for advanced graphics processing, which is essential in applications requiring visualization and graphical user interfaces.

Power efficiency is another standout feature of the Intel IP-4MTS6B. It is designed for low power consumption, which helps in reducing overall system costs, especially in battery-operated devices. This energy efficiency does not compromise performance; on the contrary, it ensures a balance between power usage and the high processing demands of modern applications.

Overall, the Intel IP-4MTS6B stands out as a reliable choice for developers looking to leverage cutting-edge technology in their embedded solutions. Its combination of multi-core processing, diverse connectivity options, excellent thermal characteristics, and power efficiency makes it an exemplary microprocessor for a variety of advanced applications. Whether in industrial automation, embedded systems, or IoT devices, the IP-4MTS6B demonstrates Intel's commitment to innovation and quality in the semiconductor market.