Category: Motorola

Features:

6 serial I/O ports

Supports synchronous and asynchronous communication

128 Kb of dynamic RAM

High-speed bi-directional DMA on two channels

The Motorola MVME333S-2 is a VMEbus intelligent communications controller with six serial I/O ports that can be configured for synchronous or www.cniacs.com asynchronous and RS-232C or RS-422 electrical protocols.

On-board intelligence includes the MC68010 10 MHz CPU with two slots for firmware and 128 Kb of dynamic RAM for data buffering.

It has firmware for asynchronous protocols on all six channels (up to 9600 baud in both directions on all channels simultaneously).

In addition, there is a high-speed bi-directional DMA for synchronous protocols up to 1 Mb/s on two channels.

Features:

4 25-pin multi-protocol EIA-232-D serial ports

The MVME712M is an I/O converter module for Motorola MPU VME Modules, VME Processor Modules, Embedded Controllers, and Single Board Computer (SBC) series processor modules.

The MVME712M is compatible with the MVME147. MVME1600. MVME162. MVME2600. MVME167. MVME2700. MVME177. MVME3600. MVME4600.

The MVME712M is used as an interface between the processor module and its peripherals. The purpose of this module is to provide rear panel industry standard connectors to simplify external customer cable requirements.

Features:

4 25-pin multi-protocol EIA-232-D serial ports

The MVME712M is an I/O converter module for Motorola MPU VME Modules, VME Processor Modules, Embedded Controllers, and Single Board www.cniacs.com Computer (SBC) series processor modules.

The MVME712M is compatible with the MVME147. MVME1600. MVME162. MVME2600. MVME167. MVME2700. MVME177. MVME3600. MVME4600.

The MVME712M is used as an interface between the processor module and its peripherals. The purpose of this module is to provide rear panel industry standard connectors to simplify external customer cable requirements.

PPMC750-2xxx Description

The PPMC750-2xxx is an extended form factor version of the PPMC750 Processor PCI Mezzanine Card (PPMC) board (see the Processor PMC Standard for VITA-32-199x Processor PCI Mezzanine Cards for more information).

The PPMC750-2xxx is 1.5 times wider than normal at 111 mm. It is based on the PowerPC MPC750 processor and the Hawk PCI host bridge/system memory controller.

Standard features of the PPMC750 include 1MB of L2 cache, an on-board bank of SDRAM (32MB to 128MB), 8MB of FLASH, and optional SDRAM memory expansion.

In addition to the standard features of the PPMC750. the PPMC750-2xxx features 1MB of socketed FLASH, a 10/100TX Ethernet channel, a 190-pin Mictor debug connector, and a serial port debug connector.

Four 64-pin PMC connectors on the PPMC750-2xxx are used to connect the PPMC750-2xxx to the motherboard.

A 10-pin right-angle connector located on the side of the motherboard provides the interface to the asynchronous serial port. A 16-pin header provides the interface to the processor’s JTAG/COP port.

A 190-pin Mictor connector on the secondary side of the www.cniacs.com board provides debug access to the processor bus.

The serial port and JTAG/COP interfaces and ABORT_L signals are also routed to the PMC P14 connector for access to the carrier board.

The PPMC750-2xxx includes a 140-pin AMP connector mounted on the auxiliary side of the board to provide sockets for memory expansion functions.

The presence of this connector increases the height measurement of the components on both sides beyond the standard PMC height.

Monarch and Non-Monarch PPMC

The traditional concepts of host/master and slave/target processors changed with the creation of the PPMC because the arbiter or clock source traditionally located on the host board was not on the PPMC7502xxx.

The VITA 32 specification defines the terms Monarch and Nonmonarch to refer to the two modes of PPMC operation.

The MVME162FX is based on the MC68040 or MC68LC040 microprocessor.

Different versions of the MVME162FX are available with 4MB, 8MB or 16MB of unprotected DRAM, 8KB SRAM (with battery backup), daily clock (with battery backup),

Ethernet transceiver interface, two serial ports with EIA-232-D or EIA-530 or EIA-485/422 interfaces, six timers, watchdog timer, one PROM socket,

1MB of Flash memory (one Flash device), four IndustryPack (IP) interfaces with DMA, SCSI bus interface with DMA, VMEbus controller, and 512KB of SRAM with battery backup. a “no VMEbus” option is also available.

The I/O on the MVME162FX is connected to the VMEbus P2 connector. The main board is connected via a P2 transition board and a cable connecting the transition board.

The MVME162FX supports the transition boards MVME712-12. MVME712-13. MVME712M, MVME712A, MVME712AM, and MVME712B (referred to in this manual as MVME712x unless otherwise noted).

The MVME712x transition board provides configuration headers and industry standard connectors for I/O devices.

I/O connections to the serial ports on the MVME162FX www.cniacs.com are also made via two DB-25 front panel I/O connectors.

The MVME712 series transition boards are designed to support the MVME167 boards, but can be used on the MVME162FX if some special precautions are taken.

(For more information, see the Serial Communications Interfaces section of the MVME162FX Embedded Controller Installation and Use Manual).

These transition boards These transition boards provide configuration headers, serial port drivers, and industry-standard connectors for I/O devices.

These transition boards provide configuration headers, serial port drivers, and industry standard connectors for I/O devices.

Benefits

The MVME162FX series provides an ideal platform for embedded monitoring applications for OEMs and solution developers.

It enables OEMs to minimize engineering costs while integrating value-added hardware and software applications into off-the-shelf products.

To provide a wide range of solutions, the MVME162FX allows the use of a variety of MPUs, memory and interface options such as floating point, Ethernet, SCSI and VME.

As a result, the MVME162FX variants best fit the application requirements.

Your gateway to mission-critical IoT

Now, more than ever, systems operating inmission-critical environments require a new level of connectivity and security. Whether it’s a natural disaster or a man-made emergency, IoTdevices are often on the first line of defense. 

MC-Edge® is an intelligent gateway designed for IoT applications.

MC-Edge’s extensive security, ultra-reliable communication capabilities and reliability of transport across two-way radio, LTE, and analog radio modes make it easy for you to implement, support and grow your IoT systems to fully support all your mission-critical operations. 

Built for versatility, MC-Edge has you covered today, and prepared for tomorrow.

MC-Edge works with ThingPark, Actility’s LoRaWAN Network and is fully configurable 

and manageable from the ThingPark Enterprise console. This addresses the need for the strictest requirements in security and operational continuity.

Expand reach with wireless built-in

Expand your operations that currently have no power or communication coverage with MC-Edge, wireless LoRaWAN gateways and servers. MC-Edge is used as a data aggregator for LoRaWAN IoT devices that can span wide areas with minimal power consumption. Utilize MC-Edge to backhaul LoRa data over two-way radio or wireless broadband to your IoT applications.

Enhance operations with edge computing

With edge computing, activities such as decision-making, filtering, logging and analytics are handled on the edge, thus increasing network capabilities, responsiveness

and efficiency.

Enable control and P25 radio system www.cniacs.com remote management

Integrated into Motorola Solutions’ P25 dispatch or radio sites, MC-Edge can be used to control physical access, monitor environmental sensors and manage alarms.

Ensure mission-critical system security

MC-Edge will automatically look for malicious activity or violations of security policies and will only allow legitimate traffic to enter and block other activity. Unauthorized activity is logged and can be reported to a designated control center. AES 256 bit encryption protects sensitive data end-to-end, whether at rest or in transit.

Embrace network agnostic connectivity and redundancy

MC-Edge utilizes MDLC communication protocol to link distant sites for easy scaling and provide alternative communication links in case of fallback. Use of this standard functionality eliminates the need for costly custom programming or additional communications infrastructure.

 KEY BENEFITS:

 • High-performance, real-time processing for complex control and automation applications

 • Robust communication media and protocol support for greater interoperability

 • MDLC protocol support for more efficient data communication over narrowband or broadband

 • Enhanced security features internationally tested and certified

ACE3600 REMOTE TERMINAL UNIT

Supervisory control and data acquisition (SCADA) systems are continuously relied on to support the most demanding industrial applications and keep your operations running efficiently. Keep your assets connected to enhance productivity and safety across www.cniacs.com your operations with the ACE3600 Remote Terminal Unit (RTU). 

The ACE3600 aims to make automation and monitoring of your complex processes robust and cohesive by connecting across a variety of communication media and data processing protocols. Enhanced security features also ensure your operations aren’t compromised and productivity doesn’t cease. 

Modular design and abundant customization enables the ACE3600 to fit your specific SCADA needs. You can start small and grow, confident that the powerful processor can handle complex applications and keep your operations connected even as your needs or technologies evolve.

HIGH-PERFORMANCE, REAL-TIME PROCESSING POWER

 Whether caused by a storm, theft or just aging infrastructure, disruptions to performance and the inability to pinpoint abnormalities decreases your productivity and can put personnel in harm’s way. The ACE3600’s processing power provides accurate data analysis and communication for the most critical, and demanding SCADA applications to ensure optimal operation.

 A 32-bit processor, running at 200 MHz, delivers real-time processing with support for up to 110 I/O modules, while the substantial Flash and DRAM memory capacity provides plenty of storage for alarms, events, live data, historical reports and files. Both polling and event-based reporting are supported, peer-to-peer or RTU-to-host.

 The ACE3600 can also be redundantly configured with a simple Ethernet interconnection. This ensures continuous operation if one CPU or power supply were to fail.

The MVME7100 increases performance and functionality while protecting the underlying investment in the VMEbus and related technologies

Up to 1.3GHz system-on-chip NXP MPC864xD, featuring dual PowerPC® e600

processor cores, dual integrated memory controllers, DMA engine, PCI Express

interface, Ethernet and local I/O

Extended temperature (-40 °C to +71 °C) and ruggedised board variants available

Four Gigabit Ethernet ports

Up to 2GB of DDR2 ECC memory, 128MB NOR flash and 2GB, 4GB or 8GB NAND flash

USB 2.0 controller for cost-effective peripheral integration (commercial temperature only)

2eSST VME bus protocol with 20MB/s VME bus transfer rate

Dual 33/66/100 MHz PMC-X interfaces, expandable with industry-standard modules

The MVME7100 provides a development path for VMEbus customers with applications on previous generation VMEs, in particular the MPC74xx processor. The system-on-chip implementation offers power/heat dissipation, reliability and lifecycle benefits that are typically found in other architectures.

which are typically not found in other architectures.

The SMART EC MVME7100 single board computer (SBC) helps OEMs of industrial, medical and defence/aerospace equipment to increase performance and functionality

to increase competitive advantage while protecting www.cniacs.com the underlying investment in the VMEbus and related technologies.

Customers can retain their VMEbus infrastructure (chassis, backplanes and other VMEbus and PMC boards) while improving performance and extending lifecycles.

In addition, the extended lifecycle of SMART EC computing products helps to minimise disruption to development and support due to frequent product replacement.

The combination of faster processors and the 2eSST VMEbus interface provides significant performance improvements. New cost-effective peripherals can be easily integrated using the USB interface.

The extended temperature (-40 °C to +71 °C) variant supports a wide range of operating and storage temperatures, in addition to increased shock tolerance.

This enables the board to operate in harsh environments while maintaining structural and operational integrity.

■ Processor choice: 32 MHz MC68040 enhanced 32-bit microprocessor with 8KB cache and MMU and FPU;

or 25 MHz MC68LC040 enhanced 32-bit microprocessor with 8KB cache and MMU

■ A32/D64 VMEbus master/slave interface system controller functionality

High-performance DMA support for VMEbus D64 and local bus memory burst cycles

16MB of configurable SDRAM

■ 512KB SRAM with battery backup

■ 1MB Flash memory for on-board monitor/debugger or user-installed firmware

■ 8K x 8 NVRAM and clock backup with batteries

Two serial communication ports, console port for EIA-232-D DCE and second port user configurable for

EIA-232d/EIA-422 (V.36) DTE/DCE

■ Four 16-bit or two 32-bit IndustriPack® ports, one of which is a DMA channel per port

■ Optional SCSI and Ethernet interfaces

■ Six 32-bit timers, one watchdog timer

Four-slot IndustriPack logic interface for embedded www.cniacs.com monitoring and control

Applications

The MVME162P4 family provides an ideal platform for OEMs and solution developers of

for embedded monitoring applications. It allows OEMs to incorporate

engineering costs when integrating value-added hardware and software

applications to off-the-shelf products.

To provide this wide range of solutions, the MVME162P4 allows a variety of

MPU, memory and interface options such as floating point, Ethernet, SCSI and VME.

The result is a variant of the MVME162P4 that is best suited to application

requirements

Functions

MVME162 features include:

-32 MHz MC68040 enhanced 32-bit microprocessor with 8KB cache, MMU and FPU

-Optional 25 MHz MC68040 32-bit microprocessor with 8KB cache, MMU and FPU

-Optional 25 MHz MC68LC040 Enhanced 32-bit Microprocessor with 8KB Cache and MMU

-A32/D64 VMEbus master/slave interface with system controller functionality

-High performance DMA support for VMEbus D64 and www.cniacs.com local bus memory burst cycles

-4. 8 or 16MB of shared DRAM

-512KB SRAM with battery backup

1MB of flash memory for on-board monitor/debugger or user-installed firmware

-8K x 8 NVRAM and clock with battery backup

-Two serial communication ports, console port as EIA-232-D DTE, second port user configurable for EIA-232-D/EIA-422 (V.36) DTE/DCE

Four 16- or 32-bit IndustryPack® ports, one DMA channel per port

Six 32-bit timers (four without VMEbus) and watchdog timer

-Optional SCSI bus interface with 32-bit local bus burst DMA

-Optional Ethernet transceiver interface with 32-bit local bus DMA

-One 32-pin PLCC EPROM socket

-Four-stage requester, seven-stage interruptor and seven-stage interrupt handler for VMEbus

-Remote RESET/ABORT/STATUS control functions

-On-board debugger and diagnostic firmware

The MVME5500 is the flagship of our VME product line, delivering higher levels of performance in a single VMEbus slot.

Higher levels of performance in a single VMEbus slot:

1GHz MPC7457 PowerPC® processor

512 KB on-chip L2 cache and 2MB L3 cache

AltiVec coprocessor for high-performance computing applications

Two banks of soldered flash (32MB and 8MB)

Dual independent 64-bit PCI bus and PMC sites with bus speeds up to 66 MHz

Gigabit Ethernet interface and an additional 10/100BaseTX Ethernet interface

64-bit PCI expansion mezzanine connector for up www.cniacs.com to four additional PMCs

I/O compatible with MVME51xx series

Processor PMC (PrPMC) support

SMART Embedded Computing’s MVME5500 features the MPC7457 processor running at 1 GHz with memory, dual independent local buses and I/O subsystems.

The powerful Marvell system controller supports a 133 MHz host bus and a 133 MHz SDRAM memory bus, a perfect match for the high-speed processor.

To match system I/O with superior processor performance, the MVME5500 offers dual 64-bit, 33/66 MHz PCI buses.

Each PCI bus has a PMC site that supports cards running at 33 or 66 MHz.

The Universe II VME interface and PMCspan connector are isolated from the PMC site on the dedicated 33 MHz PCI bus segment, so both PMC sites can operate at 66 MHz.

The MVME5500 also offers a Gigabit Ethernet interface, a 10/100BaseTX Ethernet interface and two serial ports.

All of this adds up to a well-balanced, high-performance subsystem that delivers unrivalled performance.