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ATP Hygiene Monitoring System LMAHM-A100 provides real-time monitoring with detection time of 10s/test. It ensures rapid ATP testing for surface cleanliness in various environments. It offers simple operations with immediate results to improve hygiene standards. Equipped with a user-friendly interface and easy-to-read display. Our System is designed for food safety, healthcare and other sectors requiring hygiene verification.
Catalog Manual Send Mail WhatsappSpecifications
| Detection Limit | 10-16 mol ATP |
| Detection Deviation | 5% or ±5 |
| Self-Calibration at Startup | 15s or 60s |
| Real-Time Detection Time | 10 s/test |
| Correlation Coefficient | ≥0.99 |
| Operating Temperature Range | 5 ~ 40ºC |
| Relative Humidity | < 60% |
| Memory Capacity | 255 test plans, 255 user IDs, 2000 test programs, 1000 results |
| Communication Interface | USB and Bluetooth |
| Running Time | Continuously work for > 8hrs, standby for > 600hrs |
| Power Supply | Rechargeable Battery |
| Dimension | 189×70×36mm |
| Weight | ≤ 300 g |
Features
Highly portable
Powerful memory capacity
User-friendly operation
Low consumption
Fast results
Pre-configured templates
Open-reagents
Optional Accessories
Liqu Swab
Quick swab
Applications
ATP Hygiene Monitoring System LMAHM-A100 is ideal for ensuring cleanliness in food safety, healthcare, and pharmaceutical industries. It helps verify surface hygiene and sanitation in high-traffic areas, reducing contamination risks.
Frequently Asked Questions
1 What is an ATP Hygiene Monitoring System LMAHM-A100?
An ATP Hygiene Monitoring System LMAHM A100 is a portable luminometer device designed for rapid on-site cleanliness testing through Adenosine Triphosphate detection.
2 How does ATP Hygiene Monitoring System LMAHM-A100 work?
ATP Hygiene Monitoring System LMAHM-A100 works on the principle of bioluminescence detection using the luciferase-luciferin enzymatic reaction.
3 How is ATP Hygiene Monitoring System LMAHM-A100 used in pharmaceutical cleanrooms?
ATP Hygiene Monitoring System LMAHM-A100 verifies surface hygiene compliance in sterile environments as part of GMP practices.
4 Why is ATP Hygiene Monitoring System LMAHM-A100 monitoring important in food processing?
ATP Hygiene Monitoring System LMAHM-A100 ensures production surfaces are free from biological residues that could cause contamination.
5 How is ATP monitoring used in public transportation?
ATP Hygiene Monitoring System LMAHM-A100 checks the cleanliness of high-touch areas like seats, tray tables, and restrooms for passenger safety.
6 Is ATP Hygiene Monitoring System LMAHM-A100 effective for biosafety cabinet cleaning checks?
ATP Hygiene Monitoring System LMAHM-A100 verifies that workspaces meet decontamination protocols.
7 Can ATP Hygiene Monitoring System LMAHM-A100 testing support biosecurity in poultry farms?
ATP Hygiene Monitoring System LMAHM-A100 checks surface hygiene to prevent the spread of pathogens.
8 How does ATP Hygiene Monitoring System LMAHM-A100 help restaurants maintain hygiene?
ATP Hygiene Monitoring System LMAHM-A100 verifies kitchen surface sanitation before food preparation to avoid cross-contamination.
9 How is ATP Hygiene Monitoring System LMAHM-A100 useful in manufacturing plants?
ATP Hygiene Monitoring System LMAHM-A100 ensures that shared surfaces like control panels and break areas meet hygiene standards.
10 What kind of maintenance does ATP Hygiene Monitoring System LMAHM-A100 require?
Regular maintenance includes cleaning of the swab port, proper storage of swabs and reagents, battery charging before it is fully drained, and periodic calibration checks to ensure accuracy and longevity.
11 What is an ATP Hygiene Monitoring System?
An ATP Hygiene Monitoring System is an apparatus designed for verifying the cleanliness of surfaces in food manufacturing, medical facilities and care homes.
12 How does ATP Hygiene Monitoring System work?
It detects surface contamination by measuring the light emitted from a reaction between ATP and a reagent.
13 What types of surfaces can be tested using ATP Hygiene Monitoring System?
It is used to test a wide variety of surfaces such as countertops, equipment, utensils and floors.
14 Can ATP Hygiene Monitoring System be used on equipment or machinery?
It is effective for checking cleanliness on equipment such as utensils or machinery parts.
15 Is ATP Hygiene Monitoring System affected by environmental factors?
Environmental factors such as high humidity, temperature and presence of chemicals affect ATP readings.
16 What kind of maintenance does ATP Hygiene Monitoring System require?
Regular maintenance includes routine calibration, cleaning of the apparatus and proper storage of swabs as well as reagents.
17 How does ATP Hygiene Monitoring System contribute to food safety?
It helps in maintaining contamination free food production surface, reduces the risk of foodborne illness and ensures compliance with food safety regulations.
18 How can ATP Hygiene Monitoring System be used to monitor employee hygiene?
It is used to monitor personal hygiene practices by testing the cleanliness of hands, uniforms, or Personal Protective Equipment (PPE) in food handling or healthcare environments.
19 Can ATP Hygiene Monitoring System be used to monitor the hygiene of restrooms?
It is used to monitor the cleanliness of restrooms, including toilets, sink areas and door handles.
20 Can ATP Hygiene Monitoring System detect contamination after cleaning?
It is used as a final check after cleaning in order to verify that surfaces are free of contaminants.