Extech MiniTec Digital Multimeter

The Extech MiniTec Digital Multimeter is a rugged pocket design instrument with 8 to 11 functions.

Features

  • Temperature measurements to 1400°F (760°C)
  • 10A fuse protection
  • Overload protection and indication
Your Price $50.59
Usually ships in 1-2 weeks
Extech
Free Lifetime Tech SupportFree Lifetime Tech Support
ImagePart#Product DescriptionPriceStockOrder
Extech MiniTec Digital MultimeterMN26T MiniTec digital multimeter, autoranging
$50.59
Usually ships in 1-2 weeks

The Extech MiniTec Digital Multimeter measures AC/DC voltage, AC/DC current, and resistance with an overload protection and indication. Model MN26T also measures capacitance, ferquency, temperature, and duty cycle. capacitance, resistan The 4000 count LCD displays temperature measurements up to 1400°F (760°C). Additionally, the meter test for duty cycle, continuity, and diode. Test leads are included for easy measurements. Model MN26T has an overrange function as well as type K temperature probe for high temperature readings.

MN25
  • Display count: 2000 count
  • DC voltage range: 600V (0.1mV)
  • DC voltage basic accuracy: ±0.5%
  • AC voltage range: 600V (0.1V)
  • AC voltage basic accuracy: ±1.5%
  • DC current range: 10A (1μA)
  • DC current basic accuracy: ±1.2% 
  • AC current range: 10A (1μA)
  • AC current basic accuracy: ±1.8% 
  • Resistance range: 2MΩ (0.1Ω)
  • Resistance basic accuracy: ±0.8%
  • Diode/continuity: yes
  • Dimensions: 4.8x2.4x1.6" (122x61x40mm)
  • Weight: 9.17oz (260g)

 

MN26T

 

  • Display count: 4000 count
  • DC voltage range: 600V (0.1mV)
  • DC voltage basic accuracy: ±1.0%
  • AC voltage range: 600V (0.1mV)
  • AC voltage basic accuracy: ±1.5%
  • DC current range: 10A (0.1μA)
  • DC current basic accuracy: ±1.5%
  • AC current range: 10A (0.1μA)
  • AC current basic accuracy: ±1.8%
  • Resistance range: 40MΩ (0.1Ω)
  • Resistance basic accuracy: ±1.2%
  • Capacitance range: 200μF (0.001nF)
  • Capacitance basic accuracy: ±3.5%
  • Frequency range: 10MHz (0.001Hz)
  • Frequency basic accuracy: ±1.5%
  • Temperature range: 0 to 1400°F (1°) 0 to 760°C (1°)
  • Temperature basic accuracy: ±3.0%
  • Duty cycle range: 0.1% to 99.9% (0.1%)
  • Duty cycle basic accuracy: ±1.2%
  • Diode/continuity: yes
  • Dimensions: 4.8x2.4x1.6" (122x61x40mm)
  • Weight: 9.17oz (260g)
  • (1) Meter
  • (1) Rubber holster
  • (1) Type K temperature probe (model MN26T only)
  • (2) 1.5V AAA Batteries
  • (2) Test leads
Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Coe College Wilderness Field Station Features Education, ARUs and Avian Research

If someone speaks to Jesse Ellis, Assistant Professor of Biology at Coe College and Director of the Wilderness Field Station, they might get interrupted; by a blue-headed vireo. “Bird songs are a big part of data gathering for research here,” says Ellis. “We use automated recording units (ARUs) to record wilderness sounds, especially sounds made by birds and frogs.” The Wilderness Field Station is a teaching-oriented facility. “In addition to our annual summer classes, we also conduct bird studies here including bird counts in transects, and researchers from other colleges come here to do multiple lake samplings,” Ellis adds.

Read More

Digital Mayfly Data Logger Sensor Stations Monitoring Watersheds

For most humans, mayflies seem like a nuisance, hovering over the waterways as we try to enjoy them. However, for anyone hoping to monitor the health of watersheds, mayflies are important aquatic species—and now, a digital version of the mayfly is helping some scientists keep an eye on the water. Research scientist Dr. Scott Ensign , who serves as Assistant Director of the Stroud Water Research Center , spoke to EM about how the digital mayfly technology developed. “ Shannon Hicks is the engineer who started developing the Mayfly six or seven years ago,” explains Dr. Ensign.

Read More

Solar and Wind-Powered, Algae Tracking Boat Trialed in Florida

Time is of the essence when it comes to tracking algal blooms, and people everywhere are looking for solutions. In Florida, scientists from Florida Atlantic University Harbor Branch Oceanographic Institute (HBOI) recently trialed a solar-powered, algae-tracking sail boat developed by Navocean , Inc. Dr. Jordon Beckler of Florida Atlantic University (FAU) directs HBOI's Geochemistry and Geochemical Sensing Lab and spoke to EM about the trials and the boat. "This boat is so amazing when you see it in action," remarks Dr. Beckler. "Navocean originally contacted me a few years back about a demonstration when I was over at my previous institution in West Florida, and we brainstormed some scenarios for employing the boat for harmful algae bloom monitoring.

Read More