Overview
The Spectra Precision DR400 DigiRod eliminates traditional grade rods from elevation verification workflows, delivering a rod-less digital solution for fast-paced concrete and grading operations. This compact receiver unit mounts to any vertical pole, survey staff, or tripod leg to capture laser plane elevations instantly—displaying cut/fill values in real-time without manual rod measurements or assistant crews. Designed for flatness testing, site grading, and finished slab verification, the DR400 integrates seamlessly with rotating laser levels to accelerate grade checking by up to 70% compared to conventional rod-and-level methods. Its high-contrast digital display shows precise elevation data in millimeters or fractions, while audible tones guide operators toward grade plane without constant visual reference. Water-resistant housing withstands concrete splatter and outdoor conditions, and the tool-free pole clamp adapts to round or rectangular staffs from 0.75" to 2" diameter. Battery life exceeds 40 hours on three AA cells, supporting multi-day projects without recharging downtime. Ideal for concrete finishers, site contractors, and grading crews requiring rapid elevation checks across large pours or rough grade layouts.
Key Specifications
- Accuracy: ±1/16" (±2mm) over typical working range
- Detection Range: Up to 1,200 feet diameter (laser-dependent)
- Display Resolution: 1/16" or 1mm increments
- Unit Readouts: Feet-inches-fractions, decimal feet, meters, millimeters
- Audio Indication: Three-tone on-grade alert system
- Mounting: Universal clamp fits 0.75" to 2" diameter poles/staffs
- Power: 3× AA alkaline batteries (40+ hour runtime)
- Operating Range: 14°F to 122°F (-10°C to 50°C)
- Ingress Protection: IP65 water and dust resistance
- Weight: 0.9 lbs (410g) with batteries
- Compatibility: Works with all rotating laser levels (red or green beam)
- Warranty: 3-year manufacturer limited warranty
What's in the Kit
- DR400 DigiRod digital receiver with detector window
- Universal pole clamp assembly (tool-free adjustment)
- Three AA alkaline batteries (installed)
- Protective carrying case with foam insert
- Quick-start operation guide and calibration instructions
- Cleaning cloth for detector window maintenance
Job Applications
- Concrete Flatness Testing (FF/FL): Verify slab elevations across grid points without rod assistants—one operator captures elevation data at each test location, eliminating communication errors and doubling measurement throughput on large warehouse floors or tilt-up pads.
- Slab-on-Grade Pours: Check finished concrete elevations during bull floating and troweling phases by quickly positioning the receiver at multiple points—real-time cut/fill readouts show exactly where additional material or grinding is needed before final set.
- Rough Grade Verification: Validate excavation depths and base elevations prior to formwork or aggregate placement—audio tones allow operators to reach grade plane without constant display monitoring, accelerating pad prep across residential and commercial sites.
- Parking Lot & Pavement Grading: Establish consistent cross-slopes and longitudinal grades across asphalt or concrete paving projects—instant digital readouts replace string-line methods for faster conformance verification on multi-acre surfaces.
- Foundation Footing Checks: Confirm footing excavation depths match engineered elevations by moving the receiver along trench lines—eliminates rod setup time and works in confined spaces where traditional leveling is cumbersome.
- Drainage Slope Layout: Set proper fall for site drainage, sidewalks, or ADA ramps by tracking elevation changes along designated paths—millimeter-level feedback ensures code-compliant slopes without iterative string adjustments.
Compatible Accessories
Spectra HV302 Self-Leveling Rotary Laser | SECO 8-ft Aluminum Grade Rod | CST/Berger Heavy-Duty Flat-Head Tripod | Topcon TP-2 Telescoping Prism Pole | Industrial AA Alkaline Battery 24-Pack
Related Guides
How to Check Concrete Slab Elevations With Laser Receivers | Digital Grade Receivers vs. Traditional Leveling Rods: Accuracy and Speed Comparison | Rotating Laser Setup for Site Grading and Foundation Work | Troubleshooting: Laser Receiver Not Detecting Signal
Frequently Asked Questions
- Does the DR400 work with any brand of rotating laser level?
- Yes. The DR400 detects laser signals from all major rotating laser brands including Spectra, Topcon, Leica, Trimble, and Hilti. It functions with both red and green beam lasers, though detection range may vary slightly based on beam intensity and ambient light conditions. Optimal performance occurs when paired with Spectra HV or LL series lasers.
- What's the advantage over using a traditional grade rod and level?
- The DR400 eliminates the need for a second crew member to hold and read a physical grade rod. One operator performs all measurements independently, reducing labor costs and communication errors. Digital readouts provide instant cut/fill values without manual calculations, and the compact receiver works in tight spaces where full-length rods can't fit. Projects typically see 50-70% faster grade verification compared to rod-and-level methods.
- Can I mount this on a standard survey pole or does it require a special staff?
- The universal clamp fits any round or rectangular pole from 0.75" to 2" diameter without adapters. Common mounting options include telescoping prism poles, fixed-length grade rods, tripod legs, or even rebar stakes. The tool-free clamp allows quick repositioning along the pole length to accommodate different working heights or grade planes.
- How accurate is the DR400 for concrete flatness (FF/FL) measurements?
- The DR400 provides ±1/16" (±2mm) accuracy, which meets standard requirements for FF/FL floor profiling when paired with a properly calibrated rotating laser. While dedicated floor profilers offer logging and automated calculations, the DR400 delivers sufficient precision for field verification of slab elevations during pour operations and quality control checks. Always verify your laser's accuracy before critical flatness testing.
