Safety drying ovens from the APT.line™
FDL series:
Safety drying ovens with first class safety features
This series presents the perfect environment for solvent-based samples. The interior chamber has a symmetrical airflow with defined flow velocities, free of silicone and dust, safeguarded by a high-efficiency filter cartridge. FDL thus complies with all EN 1539 and ISO 3215 requirements and its program with the intelligent fresh air monitoring feature offers maximum occupational safety.
- Patented APT.line™ preheating chamber assuring temperature accuracy and reproducible results
- In compliance with all safety requirements according to the standards EN 1539
- Temperature range 5 °C above ambient up to 300 °C
- MP controller allows easy programming of variable temperature cycles and with numerous temperature and time functions and programmable temperature ramp via program editor
- 2 programs with 10 sections each or alternatively switch over to 1 program with 20 sections
- Maximum time period of a program adjustable to either 0 to 99.59 or 999.59 h. This adjustment applies to all program sections
- Integrated week program timer with real time function
- Adjustable ramp function via program editor
- Elapsed time indicator
- Door gasket viton, up to max. 200 °C
- Replaceable fresh-air filter cartridge considerably improves particle- free, standard-compliant drying processes, class F6
- Fresh-air monitoring with acoustic and visual alarm and automatic deactivation of heating
- Independent adjustable temperature safety device class 2, providing full protection against chamber over-temperature, with visual and acoustic temperature alarm
- Rear exhaust connector Ø 100 mm
- RS 422 interface for GMP/GLP and FDA guide 21 CFR Part 11 compliant APT-COM™ DataControlSystem software
- 2 chrome-plated racks included
- BINDER test certificate
| FDL 115 | |
| Exterior dimensions | |
| Width (mm/inch) | 834 / 32.8 |
| Height (inclusive feet/castors) (mm/inch) | 800 / 31.5 |
| Depth (mm/inch) | 685 / 27.0 |
| Plus door handle (mm/inch) | 50 / 2.0 |
| Wall clearance (mm/inch) | 100 / 3.9 |
| Wandabstand bei geöffneter Tür (mm) | 160 / 6.3 |
| Exhaust duct outer- Ø (mm/inch) | 100 / 3.9 |
| Steam space volume (l/cu.ft.) | 156 / 5.5 |
| Interior dimensions | |
| Width (mm/inch) | 600 / 23.6 |
| Height (mm/inch) | 435 / 17.1 |
| Depth (mm/inch) | 435 / 17.1 |
| Interior volume (l/cu.ft.) | 115 / 4.1 |
| Racks, chrome-plated (number standard/max.) | 2/5 |
| Load per rack (kg/lbs.) | 20 / 44 |
| Permitted total load (kg/lbs.) | 50 / 110 |
| Weight of the unit (empty) (kg/lbs.) | 90 / 199 |
| Temperature data | |
| Temperature range, 5°C (9°F) above ambient up to (°C/°F) | 300 / 572 |
| Temperature variation | |
| at 70 °C (158 °F) (± °C) | 1,5 |
| at 150 °C (302 °F) (± °C) | 2,5 |
| at 300 °C (572 °F) (± °C) | 4 |
| Temperature fluctuation (± °C) | 0,3 |
| Heating-up time 2) | |
| to 70 °C (158 °F) (Min.) | 7 |
| to 150 °C (302 °F) (Min.) | 17 |
| to 300 °C (Min.) | 44 |
| Recov. time after door was opened for 30 sec. 2) | |
| at 70 °C (158 °F) (Min.) | 1 |
| at 150 °C (302 °F) (Min.) | 3 |
| at 300 °C (572 °F) (Min.) | 6 |
| Air change (approx. x/min.) | 3 |
| Air circulation (approx. x/min.) | 40 |
| Exhaust air volume flow (approx. L/Min. / m3/h) | 400 / 24.0 |
| Air flow velocity (m/sec) | 0,8-1,2 |
| Highest permitted solvent quantity (g) (at T-180 °C, M-100 g/mol, U-40 g/m3, K = 0.5) | 6,65 |
| Electrical data | |
| Housing protection acc. to EN 60529 | IP 33 |
| Nominal voltage (±10 %) 50/60 Hz (V) | 230 / 115 |
| Nominal power (W) | 2900 |
| Energy consumption | |
| at 70 °C (W) | 388 |
| at 150 °C (W) | 1098 |
| at 300 °C (W) | 2023 |
1) value without window
2) up to 98 % of the set value
All specified technical data apply for standard equipment operating at an ambient temperature of + 25 °C (77 °F), with line voltage fluctuations of ± 10%. These typical average values for series equipment were determined in accordance with the BINDER factory standard. They are based upon the recommended distances from the inner chamber walls, namely 10% of height, width and depth. Differing ambient temperatures or variances in the design of individual equipment may produce different performance data.
We therefore recommend that equipment be calibrated and/or validated on a case-by-case basis when working at the extremes of the permissible ambient temperature range.
