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Stanford Research LDC500 – Laser Diode Controller

SKU: LDC500Categories: Motion Controllers

Brand: Stanford Research

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The Stanford Research LDC500 is a precision laser diode controller designed for demanding applications. It offers precise control of laser diode current and temperature, ensuring stable and reliable laser operation. With low noise and high stability, it is ideal for scientific and industrial laser systems.

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$5,490.00

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Description
Additional information

The Stanford Research LDC500 is a precision laser diode controller combining low-noise current sourcing with high-stability temperature control in a single instrument. It delivers current outputs to 100 mA with 1 µA resolution and ±0.02% full-scale accuracy, while the integrated TEC controller maintains temperature stability to 0.0005 °C/°C with 0.001 °C setpoint resolution. Designed for scientific and industrial laser systems requiring exceptional stability and low noise across DC to 1 MHz modulation frequencies.

Technical Specifications

Current Source
• Output range: 0–100 mA (0–50 mA option available)
• Setpoint resolution: 1 µA
• Accuracy: ±0.02% of full scale
• Output impedance: >1 MΩ (DC)
• Noise floor (10 Hz–1 MHz): 0.3–0.9 µA rms depending on bandwidth and range selection
• Thermal stability: <10 ppm/°C
• Short-term stability (1 hour): <5 ppm full scale
• Long-term stability (24 hours): <15 ppm full scale

Temperature Controller
• Output power: 36 W
• Temperature stability: 0.0005 °C/°C
• Setpoint resolution: 0.001 °C
• Measurement accuracy: 0.01 °C (with calibrated sensor)
• Supported sensor types: Thermistor, RTD, IC sensors

Power & Electrical
• AC line voltage: 100V, 120V, 220V, or 240V nominal (50–60 Hz)
• Fuses: 5 × 20 mm fast-blow (4 A for 100V/120V; 2 A for 220V/240V)

– Key Features

• Dual-mode current operation: Constant Current (CC) and Constant Power (CP) with dynamic bumpless transfer
• Temperature control modes: Constant Temperature (CT) and Constant Current (CC) with automatic mode switching
• Auto-tuning of temperature loop parameters
• Analog modulation input supporting up to 1 MHz current modulation
• RF injection capability for higher-frequency modulation
• Adjustable current limits and compliance voltage
• Slow-start turn-on with fast clamping and shutdown protection
• Front-panel two-line blue alphanumeric display and dual 5-digit green LED readouts

– Typical Applications

Advanced laser systems, quantum optics, spectroscopy, and precision metrology requiring synchronized current and thermal stabilization.

– Compatibility & Integration

GPIB, RS-232, and Ethernet interfaces for remote instrument control and data logging.

MPN	LDC500
Frequency Range	DC to 1 MHz (modulation)
Voltage / Current Range	0–100 mA output (0–50 mA option); 100–240 VAC input
Brand Name	Stanford Research