Motorola MVME-224-2

Description

Detailed Parameter Table

Motorola MVME-224-2

Product Introduction

The Motorola MVME-224-2 is a legacy industrial VMEbus analog input module designed for high-channel, high-speed signal acquisition—specializing in converting continuous physical signals (e.g., temperature, pressure, flow) from analog sensors into digital data for industrial control systems. As a flagship model in the Motorola MVME 224 series, Motorola MVME-224-2 stands out from combined I/O modules like the Motorola MVME-226-2 by focusing exclusively on analog input, offering 16 differential (or 32 single-ended) channels to support large-scale sensor networks.

In automation architectures, Motorola MVME-224-2 acts as a “high-density analog data hub”: it simultaneously collects signals from dozens of sensors (e.g., thermocouples, pressure transducers) and transmits digitized data to host SBCs (such as Motorola MVME-2700-761-I/O) via the VMEbus. This dedicated design eliminates the tradeoffs of combined I/O modules (e.g., reduced AI channels for AO functionality), making Motorola MVME-224-2 ideal for applications requiring extensive monitoring—such as multi-zone HVAC systems, oil refinery process pipelines, and large-scale laboratory test rigs—where real-time, high-volume analog data drives critical decision-making.

Core Advantages and Technical Highlights

High-Channel Density + Flexibility: Motorola MVME-224-2 offers 16 differential channels (expandable to 32 single-ended), doubling the input capacity of the Motorola MVME-226-2’s AI channels. This density reduces VMEbus slot usage by 50% for large sensor networks—critical for space-constrained chassis. For example, a commercial building with 24 zone temperature sensors can use one Motorola MVME-224-2 (configured as 24 single-ended channels) instead of two smaller modules, freeing slots for digital I/O or communication cards. Per-channel configurable input ranges (±1V/±5V/±10V) also adapt to diverse sensors, from low-voltage strain gauges (±1V) to high-voltage flow meters (±10V), eliminating the need for external signal conditioners.

Ultra-Fast Sampling + Low Latency: With a single-channel sampling rate of 200 kSPS (twice that of the Motorola MVME-226-2) and conversion latency under 5 µs, Motorola MVME-224-2 captures rapid signal fluctuations that slower modules miss. In a high-speed manufacturing line (e.g., metal stamping), the module can sample 16 vibration sensors at 12.5 kSPS, detecting micro-vibrations (0.1 g) that precede equipment failure—allowing predictive maintenance before costly downtime. Interrupt-driven data transfer also ensures the host SBC receives data in real time, avoiding bottlenecks from periodic polling.

Rugged Isolation + Fault Resilience: Motorola MVME-224-2 enhances reliability with 250V AC channel isolation (preventing cross-talk between sensors) and 2 kV transient protection (higher than the Motorola MVME-226-2’s 1 kV), critical for harsh environments like oil refineries. Its open-circuit detection and over-range alerts immediately flag sensor failures—for instance, if a pressure transducer cable breaks, the module triggers a fault LED and interrupt, enabling the host SBC to alert operators within 100 ms. This resilience reduces unplanned downtime by 30% compared to basic AI modules without diagnostic features.

Typical Application Scenarios

In oil refinery process monitoring, Motorola MVME-224-2 is paired with Motorola MVME162-043 to track 16 crude oil distillation columns. It connects 16 differential AI channels to pressure transducers (±10V) and temperature sensors (±5V) on each column, sampling data at 12.5 kSPS to monitor vapor pressure and temperature gradients. The host SBC uses this data to adjust heating rates—if a column’s temperature exceeds 350°C, the SBC triggers a cooling system via a separate digital output module. Motorola MVME-224-2’s 2 kV transient protection withstands electrical surges from refinery pumps, while its -15°C operating range handles outdoor enclosure temperatures in winter.

For large-scale laboratory battery testing, Motorola MVME-224-2 serves as the core data acquisition module for 32 lithium-ion cells (configured as 32 single-ended channels). It samples voltage (±1V) and current (via shunt resistors, ±5V) at 50 kSPS per cell, logging charge/discharge cycles to a host SBC (Motorola MVME-2700-761-I/O). The module’s 0.005% reference ensures measurement accuracy within ±0.5 mV—critical for validating battery capacity and lifespan. Software calibration also maintains consistency across 10+ test rigs, meeting ISO 12405 standards for battery performance testing.

Motorola MVME-224-2

Related Model Recommendations

Motorola MVME-224-1: Entry-level variant of Motorola MVME-224-2 with 8 differential channels. Suitable for small sensor networks (e.g., 8-tank water treatment plants) where fewer inputs are needed.

Motorola MVME-226-2: Combined AI/AO module complementary to Motorola MVME-224-2. Adds 4 AO channels for control (e.g., valves, pumps) in systems where Motorola MVME-224-2 handles extensive monitoring.

Motorola MVME-224-3: High-precision upgrade of Motorola MVME-224-2 with 16-bit resolution. Ideal for aerospace testing (e.g., engine sensor data) requiring ultra-accurate measurements (±0.01% full scale).

Motorola MVME-332: 128-channel digital I/O module. Works with Motorola MVME-224-2 to add discrete control (e.g., on/off switches, alarms) to analog monitoring systems.

Motorola MVME-050: Industrial power supply (±5V/±12V, 85–264 VAC). Powers Motorola MVME-224-2 and ensures stable voltage for its precision reference, maintaining sampling accuracy.

Motorola MVME-717: 32-channel digital input module. Complements Motorola MVME-224-2 by monitoring sensor fault status (e.g., transducer power loss) in hybrid analog-digital systems.

Emerson MVME-224-2-R: Modernized replacement for Motorola MVME-224-2 (Emerson rebranding) with Ethernet integration. Ideal for users migrating legacy VME systems to IP-based monitoring.

Installation, Commissioning and Maintenance Instructions

Installation preparation: Before installing Motorola MVME-224-2, confirm the VMEbus chassis has a 3U slot and supports A16/D16 addressing. Verify the power supply provides ±5V/±12V (tolerance ±2%)—use a precision multimeter to avoid voltage ripple that degrades sampling accuracy. Gather tools: anti-static wristband (to protect analog circuitry), torque screwdriver (0.35 N·m for chassis mounting), signal generator (for calibration), and a laptop (for configuration via the host SBC). Use shielded twisted-pair cables (24 AWG minimum) for sensors—route separately from power cables (minimum 10 cm separation) to reduce EMI.

Maintenance suggestions: For daily upkeep, check Motorola MVME-224-2’s LEDs—steady power, blinking data ready, and no fault LEDs indicate normal operation. Perform bi-monthly software calibration using a 0.01% precision signal generator to verify accuracy—adjust gain/offset coefficients if deviations exceed ±0.1%. Clean the module’s vents quarterly with compressed air (25 PSI max) to prevent overheating. If a channel fault occurs, isolate the sensor (check cable continuity) and reset the module via the host SBC. Store spare Motorola MVME-224-2 units in anti-static bags (15°C–25°C, 40%–60% humidity) to preserve the voltage reference’s stability.

Service and Guarantee Commitment

Motorola MVME-224-2 is backed by a 24-month warranty from Emerson, covering defects in materials (e.g., precision ADC chips, isolation transformers) and workmanship. If a fault occurs, Emerson provides free 5-day replacement for in-stock units—critical for applications like refineries where AI downtime halts production. For extended support, customers can purchase a 36-month service contract, including 24/7 technical support (phone/email), access to archived calibration software, and priority repair for complex issues (e.g., transient protection failure).

Emerson maintains a global stock of critical components for Motorola MVME-224-2 (12-bit ADCs, precision references) to support legacy users until 2035. Technical engineers specialize in high-channel analog systems, offering remote troubleshooting (via VMEbus diagnostic tools) and on-site calibration for critical applications (e.g., laboratory testing). This commitment ensures Motorola MVME-224-2 remains a reliable solution for legacy VMEbus systems, helping users avoid costly full-system upgrades while retaining high-performance signal acquisition.