LunaBulb

Technical Specifications

Order Code

FP7-E26, FP7-E27, FP7-B22

LED Engine

Titan LED Engine

Colors

RGBMintAmber

Total LED Power

4.25 W

LED Power Draw

3.3 W

CRI (Ra) / TLCI 3200-6500K*

≥96

Strobe

0 – 25 Hertz

Pixels

1

AC Input

FP7-E26: 100-120 VAC FP7-E27: 100-240 VAC FP7-B22: 100-240 VAC

AC Connector

E26 / E27 / B22

Power Consumption (max.)

4.25 W

Wired DMX

N/A

CRMX Receiver

Built-in

Bluetooth Bridge BTB

Built-in

Wireless Protocols

CRMX, UHF, Bluetooth, WiFi

Wireless Range

CRMX / UHF up to 100 m / 110 yds Bluetooth up to 3 m / 3.3 yds

RDM Support

Wireless

Infrared Control

Yes

ControlSync

No

TouchSlider

No

Housing Material

Metal & Polycarbonate

IP Rating

IP44 – Depending on socket used

Ambient Operating Temperature

0 – 40°C / 32 – 104 °F

Weight

0.081 kg / 0.179 lbs

Dimensions Classic Look (Ø x H)

Ø 55 mm x 99 mm (E26) Ø 55 mm x 100 mm (E27) Ø 55 mm x 98.6 mm (B22)

Dimensions Slim Look (Ø x H)

Ø 27 mm / Ø 33 mm x 91.6 mm (E26) Ø 27 mm / Ø 33 mm x 92.6 mm (E27) Ø 27 mm / Ø 33 mm x 91.2 mm (B22)

Mounting Options

E26 / E27 / B22 Socket

What's in the Box

  • 1 x LunaBulb (FP7)

Available versions

  • LunaBulb with E26 Thread (FP7-E26)
  • LunaBulb with E27 Thread (FP7-E27)
  • LunaBulb with B22 Thread (FP7-B22)

RF Characteristics

RF Characteristics

Wireless Modules

ModulationModulation

ERP (Transmitter)

Channel Count

EU: UHF***(863-870 MHz)

FHSS

<25 mW

47

USA: UHF (917-922.20 MHz)

FHSS

<25 mW

53

AUS: UHF (922.30-927.50 MHz)

FHSS

<25 mW

53

SGP: UHF (920.50-924.50 MHz)

FHSS

<25 mW

41

KOR: UHF (917.9-921.5 MHz)

FHSS

<25 mW

10

RUS: UHF (868.75-869.12 MHz)

FHSS

<25 mW

6

JPN: UHF (922.80-926.40 MHz)

FHSS

<25 mW

19

CRMX (2402-2480 MHz)

FHSS

79

Bluetooth 5.0 LE (2402-2480 MHz)

FHSS

10mW (BLE)

40

WiFi (2412-2472 MHz)

DSSS, OFDM

<100 mW

13

***General allocation of frequencies for use by short-range radio applications Spectrum usage regulations:

Frequency range in MHz1)

Maximum equivalent radiant power (ERP)

Additional parameters / frequency access and interference mitigation techniques

865 – 868

25 mW

Requirements for frequency access and mitigation techniques3) Alternatively, a maximum duty cycle2) of 1% can be used.

868,0 – 868,6

25 mW

Requirements for frequency access and mitigation techniques3) Alternatively, a maximum duty cycle2) of 1% can be used.

868,7 – 869,2

25 mW

Requirements for frequency access and mitigation techniques3) Alternatively, a maximum duty cycle2) of 0.1% can be used.

869,40 – 869,65

500 mW

Requirements for frequency access and mitigation techniques3) Alternatively, a maximum duty cycle2) of 10% can be used.

869,7 – 870,0

25 mW

Requirements for frequency access and mitigation techniques3) Alternatively, a maximum duty cycle2) of 1% can be used.

1) The use of adjacent frequency bands within this table as a single frequency band is permitted, provided that the specific conditions for each of these adjacent frequency bands are met. 2) „duty cycle“ means the ratio of Σ(Ton)/(Tobs) expressed as a percentage, where ‚Ton‘ is the ‚on-time‘ of a single transmitting device and ‚Tobs‘ is the observation period Ton is measured in an observation frequency band (Fobs). Unless otherwise specified in this general allocation, Tobs is a continuous period of one hour and Fobs is the applicable frequency band in this general allocation (table). 3) Frequency access and interference mitigation techniques shall be used whose performance level at least meets the essential requirements of Directive 2014/53/EU or the Radio Equipment Act (FuAG). Where relevant techniques are described in harmonised standards, the references of which have been published in the Official Journal of the European Union pursuant to Directive 2014/53/EU, or parts thereof, performance shall be ensured which is at least equivalent to those techniques.