ENVIRONMENTAL PRODUCT DECLARATION
Independent verification of the declaration and data in compliance with ISO 14025: 2006
LEDVANCE FLOODLIGHT GEN 4 LP (SENSOR)
Reference product: FL 50 SN P 41W 6KLM 840 PS SY100 BK
| Registration number | LEDV-00031-V01.01-EN |
| Verifier accreditation number | VH08 |
| Date of issue | 11-2024 |
| Drafting rules | PEP-PCR-ED4-EN-2021 09 06 |
| Supplemented by | PSR-0014-ED2.0-EN-2023 07 13 |
| Validity period | 5 years |
| EPD prepared by | LEDVANCE GmbH |
| Independent verification of the declaration and data in compliance with ISO 14025: 2006 | Internal: X, External: |
| PCR review | The PCR review was conducted by a panel of experts chaired by Julie Orgelet (DDemain) |
| PEP compliance | PEP are compliant with XP C08-100-1:2016 or EN 50693:2019 |
| Program comparison | The elements of the present PEP cannot be compared with elements from another program. |
| Document compliance | Document in compliance with ISO 14025: 2006 « Environmental labels and declarations. Type III environmental declarations» |
1.1 Company Information
Further technical information can be obtained by contacting:
LEDVANCE GmbH, Parkring 1-5, 85748 Garching, Germany
or on the website www.ledvance.com
or by E-Mail LCA@ledvance.com.
1.2 Reference Product Information
The name of the product under study is "FL 50 SN P 41W 6KLM 840 PS SY100 BK" with the following product description:
Product Benefits
- Demand optimized illumination due to flexible and programmable sensor
- Easy adjustment of sensor range, daylight detection, hold time and dimming function
- Always-on override, activated via special mains switching pattern
- Breather membrane to optimize air exchange, without compromising IP protection
- Highly versatile due to selectable power steps (Multi Lumen) on the housing
- Robust cable gland with integrated waterstop function
- Safe and very uniform illumination, due to frosted and tempered glass diffuser
- Bright, robust and durable
- Energy savings of up to 90 % compared to halogen lamp floodlights
- No upper light output ratio (ULOR 0%) when mounted at 0° tilt
Areas of Application
- Replacement for floodlights with halogen lamps
- Outdoor use (IP65)
- D-sign according to EN 60598-2-24 for fire-risk commercial unit, e.g. by accumulation of dust
- Public areas, Building facades, Construction areas, Parking, Gardens and balconies
Product Features
- Replacement for floodlights with halogen lamps
- Outdoor use (IP65)
- D-sign according to EN 60598-2-24 for fire-risk commercial unit, e.g. by accumulation of dust
Safety Advice
- Max. wind load surface 0.027 m²
Reference Service Life
LEDVANCE declares for the luminaire following service lifetimes:
- Lifespan L70/B50 at 25 °C: 100,000 h
- Lifespan L80/B10 at 25 °C: 75,000 h
- Lifespan L90/B10 at 25 °C: 35,000 h
The key information about the product is summarized in the following table.
| Information | Value |
| Type of luminaire | Flood light |
| Short Text Product | FL 50 SN P 41W 6KLM 840 PS SY100 BK |
| Operating mode | Integrated LED driver |
| Lamp type | Integrated LED not exchangeable |
| Colour temperature | 4000 K |
| Nominal wattage | 41 W |
| Luminous flux | 6,000 lm |
| Colour rendering index Ra | 80 |
| Protection class IK | IK05 |
| Type of protection | IP65 |
| Nominal voltage | 220...240 V |
| Nominal lifetime (L70/B50) | 100,000 h |
| Length | 201 mm |
| Height | 219 mm |
| Width | 57 mm |
| Type of Sensor | Motion, Light |
| Area of Application | Urban; Zone, open Space; Sport |
Based on the assigned lifetime according EN 15193-1:2017:
| Type of building | Annual operating hours by default [h] | Operational lifetime [years] |
| Urban; Zone, open Space; Sport | 4,000 | 25 |
Following the requirements of the PSR, the operational lifetime of the luminaire of study is 25 years.
The general information used for the EPD are listed below:
| Information | Value |
| Functional unit | Provide lighting that delivers an outgoing artificial luminous flux of 1,000 lumens during a reference lifetime of 35,000 hours |
| Reference flow / declared unit* | 0.058 product(s) |
| Life cycle stages covered (according to EN15804+A2) | Cradle-to-grave and Module D |
| Product category according to PSR | Luminaires |
| Product family name (if family EPD) | FLOODLIGHT GEN 4 LP (SENSOR) |
* The reference flow is calculated as: 1,000 lm / 35,000 h
Consequently, the reference flow of the following product corresponds to: 1,000 lm / 35,000 h X 6,000 lm / 100,000 h = 0.058
1.5 Homogeneous Environmental Family
The reference product represents the FLOODLIGHT GEN 4 LP (SENSOR) family, which differs in terms of power (W), useful output flux (lm) of the integrated LED installed in the luminaries, colour temperature, sensor, weight, and dimensions.
The range of variations for the products in the same family are the following:
| Criteria | Unit | Value for the reference product | Minimum value in product range | Maximum value in product range |
| Electrical Power | W | 41 | 8 | 41 |
| Useful Output Flux | lm | 6,000 | 1,100 | 6,000 |
| Colour Temperature | K | 4,000 | 3,000 | 6,500 |
| Weight (Product) | kg | 0.890 | 0.437 | 0.890 |
| Length | mm | 201 | 136 | 201 |
| Height | mm | 219 | 127 | 219 |
| Width | mm | 57 | 36 | 57 |
The present PEP declaration is valid for all the products in the described homogenous environmental family. The spreadsheet provided in paragraph 5 Extrapolation of this document shall be used by the PEP user to extrapolate the impact of the other products from the FLOODLIGHT GEN 4 LP (SENSOR) Family, based on the technical parameters of the considered product, as requested by the PSR.
2.1 Overview
| Information | Weight [kg] | Share [%] |
| Total weight | 1.089 | 100 |
| Product | 0.890 | 81.7 |
| Packaging | 0.199 | 18.3 |
2.2 Product
| Information | Weight [kg] | Sum of weight [kg] | Share [%] |
| TOTAL | 0.890 | 100 | |
| Metals | 0.338 | 38.0 | |
| Aluminium | 0.107 | 12.1 | |
| Recycled Aluminium* | 0.211 | 23.7 | |
| Steel | 0.020 | 2.2 | |
| Plastics | 0.078 | 8.8 | |
| Polycarbonate (PC) | 0.040 | 4.5 | |
| ABS | 0.023 | 2.6 | |
| Silicone Adhesive | 0.012 | 1.3 | |
| PET | 0.002 | 0.3 | |
| Silicone Rubber | <0.001 | <0.1 | |
| Others | 0.474 | 53.2 | |
| Glass | 0.266 | 29.9 | |
| Electronics | 0.113 | 12.7 | |
| Internal & External Wires | 0.095 | 10.6 |
* 100% Recycled Aluminium (ADC12) certified by SCS
2.3 Packaging
| Information | Weight [kg] | Share [%] |
| TOTAL | 0.199 | 100 |
| Paper/cardboard | 0.198 | 99.9 |
| Plastics | <0.001 | <0.1 |
Secondary packaging with cardboard is used for shipping. In addition, packaging of raw materials and components is considered as an average quantity of 5 % in mass of the luminaire according to /PSR-0014-ED2.0-EN-2023 07 13/. This additional packaging is not considered in Table 7 as it is an additional assumption.
3.1 Manufacturing
The manufacturer sources all parts from international suppliers. Within the manufacturing site in China, the product is assembled using energy and auxiliaries, if needed. Afterwards the product is packed in packaging materials and distributed to the client. The production site has a certified Environmental management system according to ISO 14001:2015.
3.2 Distribution
The main market for the product is Europe. For this reason, an intercontinental transport following PEP-PCR-ed4-EN-2021 09 06 is considered in the model:
- Ship: 19,000 km
- Truck: 1,000 km
The background assumptions for transportation are listed below.
| Information | Unit | Truck | Ship |
| Fuel type | Diesel | Heavy fuel oil | |
| Fuel consumption | l/(kg*km) | 2.80E-03 | 2.30E-04 |
| Total distance | km | 1,000 | 19,000 |
| Capacity utilisation (including empty runs) | % | 85 | 48 |
| Bulk density of transported products | kg/m³ | n.a. | n.a. |
| Volume capacity utilisation factor | - | n.a. | n.a. |
3.3 Installation
No energy or material input is required. During installation, the product is unpacked. The packaging materials is treated by applying default values following PSR-0014-ED2.0-EN-2023 07 13.
| Treatment scenario | Metal | Paper & Cardboard | Wood | Plastics |
| Incineration without energy recovery | 0% | 0% | 0% | 0% |
| Incineration with energy recovery | 2% | 9% | 31% | 37% |
| Landfill | 21% | 9% | 38% | 23% |
| Recycling rate | 77% | 82% | 31% | 41% |
The product has no direct emissions (B1) and is designed so that no maintenance is required (B2) or parts need to be replaced (B4). Furthermore, no standard repairs (B3) or refurbishments (B5) are foreseen. The use of the product does consume electricity (B6), but no water (B7).
The main market for the product is Europe. Therefore, the European average grid mix has been used. In addition, the reference product contains a component associated with light management function, a motion and light sensor. Therefore, the total energy consumption in B6 is calculated with an energy saving coefficient of 0.55 according to /PSR-0014-ED2.0-EN-2023 07 13/.
3.5 End of Life
The product falls under the Waste from Electrical and Electronic Equipment (WEEE) directive 2012/19/EU and its main market is Europe. Therefore, European statistics on the treatment of lighting equipment as subcategory of WEEE from 2018 has been used. The EoL scenario displays a European average and is the following:
- Incineration without energy recovery: 6.5%
- Incineration with energy recovery: 7.6%
- Landfilling: 6.5%
- Recycling: 79.4%
3.6 Benefits and Loads Beyond the System Boundaries Stage
The incineration with energy recovery and recycling of the product (incl. packaging) generates environmental benefits by avoiding the production of primary materials or energy. The amount and type of material flows used for the calculation of benefits are listed in Table 10.
| Information | Unit | Value |
| Total weight going into re-use | kg/functional unit | 0 |
| Total weight going into recycling | kg/functional unit | 0.041 |
| Share of metals | % | 38.0 |
| Share of plastics | % | 8.5 |
| Share of others | % | 53.4 |
| Total weight going into incineration with energy recovery | kg/functional unit | 0.016 |
| Share of paper | % | 74.5 |
| Share of others | % | 25.5 |
4.1 Introduction
The following table summarizes the key information for the calculation of the environmental impacts:
| Information | Value |
| Used LCA software | GaBi / LCA for experts 10 |
| Used LCI database | GaBi Professional 2023.2 + Electronics Extension 2023.2 |
| PCR version | PEP-PCR-ED4-EN-2021 09 06 |
| PSR version | PEP-PSR-0014-ED2.0-EN-2023 07 13 |
| Functional unit | Provide lighting that delivers an outgoing artificial luminous flux of 1,000 lumens during a reference lifetime of 35,000 hours |
4.2 Results per Functional Unit
The following results of the environmental declaration have been developed by considering an outgoing artificial luminous flux of 1,000 lumens over a reference lifetime of 35,000 hours. The results refer to the core environmental impact indicators and indicators describing resource use, waste categories, and output flows according to EN 15804:2012+A2:2019.
| Indicator | Life cycle stages | Benefits and loads beyond the system boundaries | |||||||||
| Total (excl. D) | A1 | A2 | A3 | A4 | A5 | B6 | C2 | C3 | C4 | D | |
| GWP - total [kg CO2 eq.] | 4.33E+01 | 4.69E-01 | 3.75E-03 | 1.83E-03 | 1.65E-02 | 9.06E-03 | 4.28E+01 | 3.56E-03 | 1.93E-02 | 2.66E-03 | -1.64E-01 |
| GWP - fossil [kg CO2 eq.] | 4.30E+01 | 4.72E-01 | 3.71E-03 | 1.70E-02 | 1.64E-02 | 5.22E-03 | 4.24E+01 | 3.52E-03 | 1.93E-02 | 2.66E-03 | -1.78E-01 |
| GWP - biogenic [kg CO2 eq.] | 3.54E-01 | -3.80E-03 | 8.50E-06 | -1.52E-02 | 2.12E-05 | 3.82E-03 | 3.69E-01 | 8.07E-06 | 1.58E-05 | -5.62E-06 | 1.40E-02 |
| GWP - luluc [kg CO2 eq.] | 5.04E-03 | 2.44E-04 | 3.48E-05 | 5.51E-05 | 4.06E-05 | 1.68E-05 | 4.61E-03 | 3.30E-05 | 7.90E-07 | 7.78E-07 | -9.42E-05 |
| ODP [kg CFC-11 eq.] | 7.85E-10 | 1.78E-12 | 4.89E-16 | 5.08E-14 | 1.40E-15 | 9.91E-15 | 7.83E-10 | 4.64E-16 | 3.42E-14 | 2.48E-15 | -2.55E-13 |
| AP [Mole of H+ eq.] | 9.45E-02 | 3.46E-03 | 6.02E-06 | 5.24E-05 | 2.86E-04 | 9.63E-06 | 9.06E-02 | 5.72E-06 | 1.09E-05 | 3.41E-06 | -1.78E-03 |
| EP - freshwater [kg P eq.] | 1.61E-04 | 1.97E-06 | 1.37E-08 | 3.08E-07 | 1.87E-08 | 1.57E-07 | 1.58E-04 | 1.30E-08 | 8.70E-09 | 1.12E-09 | -3.22E-07 |
| EP - marine [kg N eq.] | 2.23E-02 | 4.40E-04 | 2.33E-06 | 2.01E-05 | 1.03E-04 | 4.45E-06 | 2.17E-02 | 2.21E-06 | 4.03E-06 | 1.24E-06 | -1.51E-04 |
| EP - terrestrial [Mole of N eq.] | 2.33E-01 | 4.79E-03 | 2.67E-05 | 1.99E-04 | 1.13E-03 | 4.05E-05 | 2.27E-01 | 2.54E-05 | 4.96E-05 | 1.43E-05 | -1.64E-03 |
| POCP [kg NMVOC eq.] | 5.96E-02 | 1.36E-03 | 5.35E-06 | 5.10E-05 | 2.82E-04 | 9.31E-06 | 5.78E-02 | 5.08E-06 | 1.06E-05 | 3.38E-06 | -4.96E-04 |
| ADPE [kg Sb eq.] | 5.48E-05 | 4.82E-05 | 2.49E-10 | 3.80E-09 | 4.00E-10 | 2.28E-09 | 6.56E-06 | 2.37E-10 | 2.63E-10 | 1.74E-11 | -2.05E-05 |
| ADPF [MJ] | 9.00E+02 | 6.08E+00 | 5.12E-02 | 2.11E-01 | 2.08E-01 | 7.33E-02 | 8.93E+02 | 4.86E-02 | 5.84E-02 | 5.30E-03 | -2.40E+00 |
| WDP [m³ world equiv.] | 9.58E+00 | 1.04E-01 | 4.54E-05 | 1.17E-02 | 7.30E-05 | 3.26E-04 | 9.46E+00 | 4.31E-05 | 3.17E-03 | 5.62E-04 | -2.53E-02 |
| Indicator | Acronym [Unit] | Value |
| Renewable primary energy (without raw material) | PERE [MJ] | 5.34E+02 |
| Renewable primary energy (raw material) | PERM [MJ] | 2.09E-01 |
| Total use of renewable primary energy | PERT [MJ] | 5.35E+02 |
| Non-renewable primary energy (without raw material) | PENRE [MJ] | 8.97E+02 |
| Non-renewable primary energy (raw material) | PENRM [MJ] | 1.24E-01 |
| Total use of non-renewable primary energy | PENRT [MJ] | 8.98E+02 |
| Use of secondary materials | SM [kg] | 4.32E-02 |
| Use of renewable secondary fuels | RSF [MJ] | 0.00E+00 |
| Use of non-renewable secondary fuels | NRSF [MJ] | 0.00E+00 |
| Net use of fresh water | FW [m³] | 9.55E+00 |
| Hazardous waste disposed | HWD [kg] | -2.97E-09 |
| Non-hazardous waste disposed | NHWD [kg] | 6.87E-01 |
| Radioactive waste disposed | RWD [kg] | 1.42E-01 |
| Components for reuse | CRU [kg] | 0.00E+00 |
| Materials for recycling | MFR [kg] | 2.97E-02 |
| Materials for energy recovery | MER [kg] | 9.50E-03 |
| Exported electricity | EEE [MJ] | 3.42E-02 |
| Exported thermal energy | EET [MJ] | 7.44E-02 |
| Biogenic carbon content of the product | Biog. C in product [kg] | 0.00E+00 |
| Biogenic carbon content of the associated packaging | Biog. C in packaging [kg] | 4.98E-03 |
4.4 Results per Unit of Product
The following results of the environmental declaration have been developed by considering the entire life cycle of one product with the technical properties described in paragraph 1.
| Indicator | Life cycle stages | Benefits and loads beyond the system boundaries | |||||||||
| Total (excl. D) | A1 | A2 | A3 | A4 | A5 | B6 | C2 | C3 | C4 | D | |
| GWP - total [kg CO2 eq.] | 7.43E+02 | 8.04E+00 | 6.43E-02 | 3.14E-02 | 2.83E-01 | 1.55E-01 | 7.34E+02 | 6.11E-02 | 3.31E-01 | 4.55E-02 | -2.82E+00 |
| GWP - fossil [kg CO2 eq.] | 7.37E+02 | 8.10E+00 | 6.35E-02 | 2.91E-01 | 2.82E-01 | 8.95E-02 | 7.27E+02 | 6.04E-02 | 3.31E-01 | 4.56E-02 | -3.05E+00 |
| GWP - biogenic [kg CO2 eq.] | 6.06E+00 | -6.52E-02 | 1.46E-04 | -2.61E-01 | 3.64E-04 | 6.55E-02 | 6.32E+00 | 1.38E-04 | 2.72E-04 | -9.63E-05 | 2.40E-01 |
| GWP - luluc [kg CO2 eq.] | 8.64E-02 | 4.18E-03 | 5.96E-04 | 9.44E-04 | 6.97E-04 | 2.88E-04 | 7.91E-02 | 5.67E-04 | 1.35E-05 | 1.33E-05 | -1.62E-03 |
| ODP [kg CFC-11 eq.] | 1.35E-08 | 3.05E-11 | 8.38E-15 | 8.70E-13 | 2.40E-14 | 1.70E-13 | 1.34E-08 | 7.96E-15 | 5.86E-13 | 4.25E-14 | -4.38E-12 |
| AP [Mole of H+ eq.] | 1.62E+00 | 5.94E-02 | 1.03E-04 | 8.98E-04 | 4.91E-03 | 1.65E-04 | 1.55E+00 | 9.81E-05 | 1.87E-04 | 5.84E-05 | -3.05E-02 |
| EP - freshwater [kg P eq.] | 2.76E-03 | 3.38E-05 | 2.35E-07 | 5.28E-06 | 3.21E-07 | 2.69E-06 | 2.71E-03 | 2.24E-07 | 1.49E-07 | 1.92E-08 | -5.51E-06 |
| EP - marine [kg N eq.] | 3.82E-01 | 7.55E-03 | 3.99E-05 | 3.44E-04 | 1.76E-03 | 7.62E-05 | 3.72E-01 | 3.79E-05 | 6.92E-05 | 2.12E-05 | -2.60E-03 |
| EP - terrestrial [Mole of N eq.] | 3.99E+00 | 8.21E-02 | 4.58E-04 | 3.41E-03 | 1.93E-02 | 6.95E-04 | 3.88E+00 | 4.35E-04 | 8.51E-04 | 2.45E-04 | -2.80E-02 |
| POCP [kg NMVOC eq.] | 1.02E+00 | 2.33E-02 | 9.17E-05 | 8.74E-04 | 4.83E-03 | 1.60E-04 | 9.92E-01 | 8.71E-05 | 1.81E-04 | 5.79E-05 | -8.49E-03 |
| ADPE [kg Sb eq.] | 9.40E-04 | 8.27E-04 | 4.27E-09 | 6.52E-08 | 6.86E-09 | 3.91E-08 | 1.13E-04 | 4.06E-09 | 4.51E-09 | 2.99E-10 | -3.52E-04 |
| ADPF [MJ] | 1.54E+04 | 1.04E+02 | 8.77E-01 | 3.62E+00 | 3.56E+00 | 1.26E+00 | 1.53E+04 | 8.33E-01 | 1.00E+00 | 9.08E-02 | -4.11E+01 |
| WDP [m³ world equiv.] | 1.64E+02 | 1.79E+00 | 7.78E-04 | 2.01E-01 | 1.25E-03 | 5.59E-03 | 1.62E+02 | 7.39E-04 | 5.43E-02 | 9.63E-03 | -4.33E-01 |
| Indicator | Acronym [Unit] | Value |
| Renewable primary energy (without raw material) | PERE [MJ] | 9.16E+03 |
| Renewable primary energy (raw material) | PERM [MJ] | 3.58E+00 |
| Total use of renewable primary energy | PERT [MJ] | 9.16E+03 |
| Non-renewable primary energy (without raw material) | PENRE [MJ] | 1.54E+04 |
| Non-renewable primary energy (raw material) | PENRM [MJ] | 2.13E+00 |
| Total use of non-renewable primary energy | PENRT [MJ] | 1.54E+04 |
| Use of secondary materials | SM [kg] | 7.41E-01 |
| Use of renewable secondary fuels | RSF [MJ] | 0.00E+00 |
| Use of non-renewable secondary fuels | NRSF [MJ] | 0.00E+00 |
| Net use of fresh water | FW [m³] | 1.64E+02 |
| Hazardous waste disposed | HWD [kg] | -5.09E-08 |
| Non-hazardous waste disposed | NHWD [kg] | 1.18E+01 |
| Radioactive waste disposed | RWD [kg] | 2.43E+00 |
| Components for reuse | CRU [kg] | 0.00E+00 |
| Materials for recycling | MFR [kg] | 5.10E-01 |
| Materials for energy recovery | MER [kg] | 1.63E-01 |
| Exported electricity | EEE [MJ] | 5.86E-01 |
| Exported thermal energy | EET [MJ] | 1.27E+00 |
| Biogenic carbon content of the product | Biog. C in product [kg] | 0.00E+00 |
| Biogenic carbon content of the associated packaging | Biog. C in packaging [kg] | 8.54E-02 |
5.1 Extrapolation Rules
Extrapolations rules have been calculated following PCR-ed4-EN-2021 09 14 and PSR-0014-ed2.0- EN-2023 07 18. The defined rules shall be applied using the Extrapolation rules file provided in the following tables.
| Parameter | Value for reference product (FL 50 SN P 41W 6KLM 840 PS SY100 BK) |
| Lighting output [lm] | 6,000 |
| Weight of light source [kg] | 0.027 |
| Weight of luminaire structure [kg] | 0.742 |
| Weight of control gear [kg] | 0.079 |
| Weight of light management system [kg] | 0.042 |
| Weight of packaging [kg] | 0.199 |
| Power [W] | 41 |
| Length [mm] | 201 |
| Height [mm] | 219 |
| Width [mm] | 57 |
The extrapolation coefficients calculation at the functional unit level shall be taken into account with the following formula:
Extrapolation coefficient at the product level x (Lighting output of reference product (lm) / Lighting output of concerned product (lm))
5.2 Extrapolation Coefficients
The reported extrapolation coefficients are intended at product level (declared unit) and not at functional unit.
- The reference product has a photocell, which is a light sensor, the energy saving coefficient is hence 0.75, and the same rule applies to other products with a photocell within the product family.
- The rest of the products that do not have any light management functions are assigned with an energy saving coefficient of 1.0.
Table 17: Calculated Extrapolation Coefficients per Product
| Product Name | Useful output flux [lm] | Manufacturing | Distribution | Installation | Use | EoL |
| FL 50 SN P 41W 6KLM 840 PS SY100 BK | 6,000 | 1.00 | 1.00 | 1.00 | 1.00 | 1.00 |
| FL 10 P 8W 1K2LM 830 PS SY100 BK | 1,100 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 10 P 8W 1K2LM 830 PS SY100 WT | 1,100 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 10 P 8W 1K2LM 840 PS SY100 BK | 1,200 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 10 P 8W 1K2LM 840 PS SY100 WT | 1,200 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 10 P 8W 1K2LM 865 PS SY100 BK | 1,200 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 10 P 8W 1K2LM 865 PS SY100 WT | 1,200 | 0.53 | 0.50 | 0.56 | 0.35 | 0.49 |
| FL 20 P 17W 2K4LM 830 PS SY100 BK | 2,200 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 20 P 17W 2K4LM 830 PS SY100 WT | 2,200 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 20 P 17W 2K4LM 840 PS SY100 BK | 2,400 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 20 P 17W 2K4LM 840 PS SY100 WT | 2,400 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 20 P 17W 2K4LM 865 PS SY100 BK | 2,400 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 20 P 17W 2K4LM 865 PS SY100 WT | 2,400 | 0.63 | 0.61 | 0.65 | 0.75 | 0.60 |
| FL 50 P 41W 6KLM 830 PS SY100 BK | 5,500 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 50 P 41W 6KLM 830 PS SY100 WT | 5,500 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 50 P 41W 6KLM 840 PS SY100 BK | 6,000 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 50 P 41W 6KLM 840 PS SY100 WT | 6,000 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 50 P 41W 6KLM 865 PS SY100 BK | 6,000 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 50 P 41W 6KLM 865 PS SY100 WT | 6,000 | 0.74 | 0.70 | 0.87 | 1.82 | 0.66 |
| FL 10 SN P 8W 1K2LM 830 PS SY100 WT | 1,100 | 0.59 | 0.57 | 0.69 | 0.20 | 0.54 |
| FL 10 SN P 8W 1K2LM 830 PS SY100 BK | 1,100 | 0.59 | 0.57 | 0.69 | 0.20 | 0.54 |
| FL 10 SN P 8W 1K2LM 840 PS SY100 WT | 1,200 | 0.59 | 0.57 | 0.69 | 0.20 | 0.54 |
| FL 10 SN P 8W 1K2LM 840 PS SY100 BK | 1,200 | 0.59 | 0.57 | 0.69 | 0.20 | 0.54 |
| FL 20 SN P 17W 2K4LM 830 PS SY100 WT | 2,200 | 0.68 | 0.66 | 0.77 | 0.41 | 0.64 |
| FL 20 SN P 17W 2K4LM 830 PS SY100 BK | 2,200 | 0.68 | 0.66 | 0.77 | 0.41 | 0.64 |
| FL 20 SN P 17W 2K4LM 840 PS SY100 WT | 2,400 | 0.68 | 0.66 | 0.77 | 0.41 | 0.64 |
| FL 20 SN P 17W 2K4LM 840 PS SY100 BK | 2,400 | 0.68 | 0.66 | 0.77 | 0.41 | 0.64 |
| FL 50 SN P 41W 6KLM 830 PS SY100 WT | 5,500 | 1.00 | 1.00 | 1.00 | 1.00 | 1.00 |
| FL 50 SN P 41W 6KLM 830 PS SY100 BK | 5,500 | 1.00 | 1.00 | 1.00 | 1.00 | 1.00 |
| FL 50 SN P 41W 6KLM 840 PS SY100 WT | 6,000 | 1.00 | 1.00 | 1.00 | 1.00 | 1.00 |
