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Fluke ESA715 Electrical Safety Analyzer in Bangladesh
The Fluke ESA715 Electrical Safety Analyzer is a compact, all-in-one device designed to perform essential electrical safety tests on medical equipment. In Bangladesh, it is widely suited for use in hospitals, clinics, diagnostic centers, biomedical engineering departments, and service companies that need to ensure medical devices are electrically safe for patients and staff.
By combining multiple safety tests into one unit, the ESA715 helps biomedical engineers follow standard safety procedures, reduce testing time, and maintain a higher level of compliance and patient safety. These features make it ideal for routine safety checks during preventive maintenance, equipment installation, and post-repair verification.
Pico Labs Limited is a reliable technology provider in Bangladesh where you can explore a wide range of Biomedical Test Equipment at the best price. From hospitals and clinics to diagnostic centers and biomedical engineering departments, you can find professional analyzers, simulators, and test tools for accurate performance checking of medical devices like infusion pumps, defibrillators, patient monitors, incubators, and ventilators.
Example Technical Overview Table
The table below gives a simplified overview of typical functions and characteristics of an electrical safety analyzer like the Fluke ESA715. Actual specifications may vary based on model and configuration.
| Parameter / Function | Typical Description |
|---|---|
| Ground Wire Resistance | Measures protective earth continuity |
| Equipment Leakage Current | Measures leakage from enclosure and mains parts |
| Patient Leakage Current | Simulates patient connection leakage (model dependent) |
| Applied Part Leakage | Tests current from applied parts to ground/other points |
| Test Modes | Various test configurations for different device types |
| Display | Digital readout with clear numerical values |
| Power Source | Mains powered (and/or other options as specified) |
| Connectivity | May offer data/log transfer options (model dependent) |
| Application Environment | Hospital, lab, workshop, and on-site service |
| Typical Use | Routine electrical safety testing of medical equipment |
This table is for general understanding and not a formal datasheet.
Applications of ESA715 in Bangladesh
In Bangladesh, healthcare facilities are increasingly focused on quality and safety. The Fluke ESA715 Electrical Safety Analyzer fits this requirement by supporting:
-
Hospitals and Clinics
Used for regular electrical safety tests on devices such as patient monitors, infusion pumps, ventilators, anesthesia machines, electro-surgical units, and imaging support equipment. -
Diagnostic and Specialized Centers
Ensures that electrically powered devices in imaging, cardiology, dialysis, and laboratory departments meet safety criteria. -
Biomedical Engineering Departments
Helps biomedical engineers and technicians perform standardized safety checks as part of preventive maintenance and after repair tasks. -
Third-Party Service Providers
Service companies can use the analyzer to provide on-site safety testing services to multiple healthcare facilities.
By systematically using the ESA715, organizations can significantly reduce the risk of electrical shock, equipment malfunction, and safety-related incidents.
Benefits for Hospitals and Biomedical Teams
Using the Fluke ESA715 Electrical Safety Analyzer offers several clear advantages:
-
Enhanced Patient and Staff Safety
Regular safety testing minimizes the risk of electrical hazards, helping protect patients, nurses, doctors, and technicians. -
Compliance with Safety Procedures
The analyzer supports standard test methods and sequences, allowing healthcare providers to follow documented safety protocols and satisfy internal audits. -
Time-Saving Operation
All-in-one functionality and pre-defined test sequences reduce testing time compared to using separate instruments or manual methods. -
Consistent and Repeatable Results
Digital readings and defined test setups help produce repeatable results, which is critical for long-term maintenance records and comparison. -
Support for Preventive Maintenance Programs
Integrating electrical safety tests into a regular maintenance schedule can help identify potential problems early, reduce unexpected failures, and extend equipment life.
Typical Test Workflow with ESA715
A general use-case for the Fluke ESA715 in a Bangladeshi hospital might include:
- Visual Inspection – Checking cables, plugs, and housing for visible damage.
- Ground Wire Resistance Test – Ensuring proper continuity of the protective earth connection.
- Equipment Leakage Current Test – Verifying leakage currents from the equipment body and mains lines are within acceptable limits.
- Patient/Applied Part Leakage Tests – Confirming that any currents flowing through the patient connections remain within safe levels (depending on device type and test setup).
- Result Review and Documentation – Recording test values in maintenance logs, with pass/fail decisions based on facility standards.
Using a standardized analyzer like the ESA715 makes it easier to perform these steps consistently across many devices and departments.
Considerations Before Using or Purchasing in Bangladesh
When planning to use or purchase the Fluke ESA715 Electrical Safety Analyzer in Bangladesh, consider the following:
-
Type of Medical Equipment in Your Facility
Ensure the analyzer supports the test configurations required for the devices you commonly use (e.g., Class I, Class II, BF, CF applied parts). -
Training and Competency
Make sure biomedical staff understand safety testing principles, proper connections, and interpretation of results. -
Calibration and Verification
Plan for periodic calibration of the analyzer at a qualified calibration lab to maintain measurement accuracy and traceability. -
Integration into SOPs
Include electrical safety testing with the ESA715 in your standard operating procedures, especially for new installations, post-repair checks, and scheduled maintenance. -
Documentation Practices
Set up a system for recording test res ults, which will be useful for regulatory inspections, accreditation, and internal quality audits.
The Fluke ESA715 Electrical Safety Analyzer is a practical and reliable tool for ensuring the electrical safety of medical equipment in Bangladesh. Its combination of key tests, user-friendly operation, and robust design make it suitable for hospitals, diagnostic centers, and service providers who wish to maintain high safety standards.
Key Features of Fluke ESA715 Electrical Safety Analyzer
The Fluke ESA715 is built to simplify and standardize electrical safety testing. Typical feature highlights include:
- All-in-one safety testing for medical equipment
- Ground wire resistance measurement
- Equipment leakage current testing
- Patient leakage and auxiliary leakage checks (depending on configuration)
- Simplified test selection with pre-set sequences
- Clear digital display for easy reading of test values
- Portable and robust design for field and bench use
- User-friendly interface requiring minimal training
General Specifications
Safety standard compliance IEC 61010-1: Overvoltage category II, pollution degree 2
IEC 61010-2-034: Measurement CAT II 300 V
Measurement equipment
standard compliance
IEC 61557-16:2014, except IP40 for certain equipment outlets
Dimensions (w x d x h) 214 x 207 x 92 mm (8.4 x 8.1 x 3.6 inches)
Weight 1.3 kg (2.7 pounds)
Ingress protection IP40 per IEC 60529, excluding equipment outlet
Operating temperature 0 to +35 °C (+50 to +95 °F)
Operating humidity 10-90 %, non-condensing
Storage temperature -20 to +60 °C (-4 to+ 140 °F)
Storage humidity 5-95 %, non-condensing
Battery charging temperature 8 to +28°C (+46 to +82°F)
Altitude 100-127 V ac mains voltage and ≤5 150 V on input jacks: ≤ 5000 m
200-240 V ac mains voltage and ≤5 300 V on input jacks: ≤ 2000 m
Battery Built-in rechargeable lithium-ion (<3600 mAh, 3.6 V)
Battery life Up to 2 h
Connectivity 1 x USB-C for PC communication, 2 x USB-A for peripherals
Display 5-inch touchscreen
Data storage > 10 000 measurements
Power (region dependent) 90-132 V ac, 20 A MAX, 47-63 Hz
90-132 V ac & 180-264 Vac, 10 A MAX, 47-63 Hz
90-132 V ac & 180-264 V ac, 15 A MAX, 47-63 Hz
90-132 V ac & 180-264 V ac, 16 A MAX, 47-63 Hz
CSA approval
US version,
90-132 V ac, 20 A MAX, 47-63 Hz
CSA approved
NEMA 6-15 version,
90-132 V ac & 180-264 V ac,
15 A MAX, 47-63 Hz
CSA approved
Measurement Specifications
Mains voltage
Range 0-264 V ac rms, limited by power specification
Accuracy ±(2 % + 0.2 V)
Point to point voltage
Range 0-300 V ac rms, limited by altitude specification
Accuracy ±(2 % + 0.2 V)
Protective earth resistance & Point to point resistance
Range 0-20 Ω
Accuracy ±(1 % + 0.01 Ω) at ≤ 2 Ω
±(1 % + 0.1 Ω) at >2 Ω
Test current Square wave of at least ±200 mA for ≤ 2 Ω
Open circuit voltage Max ±24 V
Equipment Current
Range 0-20 A ac rms, limited by power specification
Accuracy ±(5 % + 0.05 A)
Max duty cycle 0-10 A: continuous
10-15 A: 7 min on/3 min off
15-20 A: 5 min on/5 min off
Note: Equipment outlet will be turned off if max duty cycle is exceeded.
Leakage Current
Modes ac + dc (true rms), ac only, dc only
Mains on applied part leakage test: ac only
Patient load AAMI ES1:1993
IEC 60601-1:2005 / IEC 62353:2014
See users manual for more information.
Crest factor ≤2
Range 0 μA - 20 mA
Accuracy dc & 20 Hz - 0.5 kHz: ±(1 % + 1 μA)
0.5 kHz - 50 kHz: ±(2.5 % + 1 μA)
50 kHz - 1 MHz: ±(5 % + 1 μA)
Mains on applied part (Applies to: mains on applied part leakage, direct applied part leakage, alternative applied part leakage, alternative
equipment leakage)
Test voltage Mains voltage ±5 %
Current limit 1 mA ± 25 % at 115 V for AAMI ES1, NFPA 99
3.5 mA ± 25 % at 230 V for IEC 60601-1, IEC 62353 and EN 50678 / EN 50699
7.5 mA ± 25 % at 230 V for AS/NZS 3551
Additional uncertainty Up to ±2 μA for 120 V, up to ±4 μA for 230 V
Insulation Resistance
Test voltage 250 V dc
and 500 V dc
Range 0.1-100 MΩ
Accuracy ±(2 % + 0.2 MΩ) at ≤ 10 MΩ
±(7.5 % + 0.2 MΩ) at >10 MΩ
Test voltage accuracy +20 % / -0 %
Test voltage 50 V dc and
100 V dc
Range 0.1-20 MΩ
Accuracy ±(10 % + 0.2 MΩ)
Test voltage accuracy +30 % / -0 %
Short-circuit current 2 mA ± 0.25 mA
Maximum load capacitance 2 μF
ECG simulation
Frequency accuracy ±2 %
Amplitude accuracy ±5 %, for 2 Hz square wave
Waveforms ECG complex 30, 60, 120, 180 and 240 BPM
Square wave 0.125 and 2 Hz, 50 % duty cycle
Triangle wave 2 Hz
Pulse, 63 ms 30 and 60 BPM
Ventricular fibrillation
Respiration simulation
Rate Apnea (0 BrPM) and 10-100 BrPM in 10 BrPM steps
Waveforms Normal
Inspiration : expiration ratio 1:1
Impedance baseline 1000 Ω ± 5 % between leads
Impedance variation 1 ± 0.15 Ω
Respiration lead LL or LA, user selectable
