YiHeng BPN Series Professional CO₂ Incubator with Infrared CO₂ Sensor
| Brand | YiHeng |
|---|---|
| Origin | Shanghai, China |
| Model | BPN-80CRH (UV), BPN-150CRH (UV), BPN-240CRH (UV) |
| Power Supply | AC 220 V / 50 Hz |
| Heating Method | Air-jacketed PID temperature control |
| Temperature Range | Ambient +5 °C to 55 °C |
| Temp. Uniformity | ±0.1 °C |
| CO₂ Range | 0–20 % v/v |
| CO₂ Accuracy | ±0.1 % (infrared sensor) |
| CO₂ Recovery Time (to 5 % after 30-sec door opening) | ≤3 min |
| Temp. Recovery Time (to 37 °C after 30-sec door opening) | ≤8 min |
| Humidity | >95 % RH (natural evaporation, optional digital display) |
| Chamber Volume | 80 L / 155 L / 233 L |
| Internal Dimensions (W×D×H, mm) | 400×400×500 / 530×480×610 / 600×580×670 |
| External Dimensions (W×D×H, mm) | 590×660×790 / 670×740×900 / 720×790×700 |
| Standard Shelves | 2 / 3 / 3 pcs |
| UV Sterilization Lamp | Yes |
| Microbial Filter (≥0.3 µm) | Yes |
| Door Glass Heating | Yes |
| Fan Speed Auto-Control | Yes |
| Communication Interface | RS485 (optional) |
Overview
The YiHeng BPN Series Professional CO₂ Incubator is engineered for rigorous cell culture applications requiring high fidelity in environmental control. Designed around a dual-sensor architecture—featuring an imported infrared (IR) CO₂ sensor and a platinum resistance thermometer (PT100)—the incubator delivers long-term stability and minimal cross-sensitivity between temperature, humidity, and gas concentration parameters. Unlike thermal conductivity (TC) sensors, IR-based detection eliminates drift caused by ambient humidity fluctuations or O₂/N₂ composition shifts, ensuring consistent CO₂ measurement accuracy of ±0.1 % v/v across the full 0–20 % operating range. The air-jacketed heating system provides rapid thermal recovery (≤8 min to 37 °C after a 30-second door opening) and uniform chamber conditions (±0.1 °C), critical for maintaining stem cell pluripotency, primary cell viability, and reproducible transfection outcomes. All models comply with ISO 13485 design controls for medical device-associated lab equipment and support GLP-compliant workflows through configurable alarm logging and audit-trail-ready data export.
Key Features
- Infrared CO₂ sensing technology with automatic zero calibration—immune to humidity-induced baseline drift and unaffected by ambient temperature gradients.
- Air-jacketed PID-controlled heating system with independent over-temperature cut-off circuitry, meeting IEC 61010-1 safety requirements for laboratory equipment.
- UV germicidal lamp mounted on rear chamber wall, emitting 254 nm UVC radiation for periodic decontamination of circulating air and humidification tray vapor phase—validated per ISO 15714 for microbial reduction efficacy.
- 0.3 µm-rated HEPA-grade CO₂ inlet filter achieving ≥99.99 % particle retention efficiency, compliant with USP and EU GMP Annex 1 recommendations for sterile process environments.
- Electrically heated inner glass door preventing condensation formation—eliminating surface moisture that may serve as a vector for microbial ingress during routine access.
- Intelligent fan speed modulation algorithm dynamically adjusts airflow based on chamber load and door status, minimizing evaporative loss from open petri dishes and multi-well plates.
- Stackable chassis design (up to two units vertically) optimized for space-constrained core facilities and biorepository labs.
Sample Compatibility & Compliance
The BPN series accommodates standard tissue culture formats including T-flasks (25–225 cm²), Petri dishes (35–150 mm), multi-well plates (6–96-well), roller bottles, and custom bioreactor inserts. Chamber geometry ensures laminar, non-turbulent air distribution—validated via ISO 14644-3 particle mapping protocols—to prevent shear stress on adherent monolayers and suspension cultures. All models meet EN 61000-6-3 (EMC emission) and EN 61000-6-2 (immunity) standards. Optional RS485 interface enables integration into centralized facility monitoring systems compliant with FDA 21 CFR Part 11 for electronic record integrity, including time-stamped alarm logs, parameter change history, and user-access tracking.
Software & Data Management
The microprocessor-based controller features a backlit LCD interface displaying real-time values for temperature, CO₂ concentration, relative humidity (with optional digital sensor), and operational status codes. All configuration settings—including setpoints, alarm thresholds, UV cycle duration, and fan profiles—are stored in non-volatile memory. Event-driven data logging captures up to 30 days of continuous parameter history at 1-minute intervals. Through the optional RS485 port and bundled PC software, users can export CSV-formatted datasets for statistical process control (SPC) analysis, generate IQ/OQ/PQ validation reports, and perform root-cause diagnostics during out-of-specification events. Remote SMS alerting (via external GSM module) notifies designated personnel upon activation of critical alarms—door-open timeout, CO₂ deviation >±0.5 %, or temperature excursion beyond ±1.0 °C—supporting 24/7 operational continuity.
Applications
This incubator serves as a foundational platform for academic, pharmaceutical, and contract research organizations conducting mammalian cell line maintenance (e.g., HEK293, CHO-K1), induced pluripotent stem cell (iPSC) expansion, organoid differentiation, co-culture assays, and vaccine production seed train operations. Its stable CO₂ delivery supports pH-sensitive media formulations (e.g., DMEM/F12 with sodium bicarbonate buffering), while the UV + HEPA dual-decontamination strategy meets stringent requirements for low-bioburden workflows in ATMP (Advanced Therapy Medicinal Product) manufacturing. Routine use cases include CRISPR-Cas9 editing validation, monoclonal antibody titer optimization, and cytotoxicity screening under physiologically relevant gas tensions.
FAQ
What calibration standards are supported for the infrared CO₂ sensor?
The IR sensor is factory-calibrated against NIST-traceable CO₂ reference gases; users may perform field verification using certified 5.0 % v/v CO₂ in air standards per ISO 6142.
Is humidity control active or passive?
Humidity is maintained passively via stainless-steel water reservoirs enabling natural evaporation; optional capacitive RH sensors provide digital readout but do not regulate humidity actively.
Can the incubator be validated for GMP compliance?
Yes—full IQ/OQ documentation templates, sensor traceability records, and alarm log export functionality are provided to support GMP Annex 1 and FDA 21 CFR Part 11 validation protocols.
What safety certifications does the unit hold?
Certified to IEC 61010-1 (Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use) and CE-marked under the EU Low Voltage Directive 2014/35/EU.
How frequently should the UV lamp be replaced?
Lamp output degrades after ~8,000 hours of cumulative operation; replacement is recommended annually under typical usage (15-min daily cycles) to maintain ≥90 % UVC intensity at 1 m distance.
