AX1 PixelTube

技术规格

由于组件短缺,Astera对Titan Tube进行了内部升级。升级后,所有2022年9月以后生产的Titan Tube均内置了BTB功能,型号为AX1-BTB。

型号

AX1

AX1-BTB

Titan LED引擎集成

RGBW

RGBW

颜色

RGBW

RGBW

LED总功率

28 W

28 W

LED额定功率

16 W

16 W

Luminous Flux 3200K

723 Lumens

723 Lumens

Luminous Flux 4000K

725 Lumens

725 Lumens

总光通量5500K

717 Lumens

717 Lumens

光照强度(3200K,距离1M)

254 Lux

254 Lux

光照强度(4000K,距离1M)

255 Lux

255 Lux

光照强度(5500K,距离1M)

253 Lux

253 Lux

显色指数 (CRI(Ra)/TLCI 3200-6500K*)

≤88

≤88

出光角度

120°

120°

出光角度(IES规范)

180°

180°

频闪效果

0 – 25 Hertz

0 – 25 Hertz

像素

16

16

电池运行时间

长达20小时

长达20小时

电池寿命

充放电循环300次后剩余70%电力

充放电循环300次后剩余70%电力

充电时间(标称)

7小时

7小时

输入电压

48 VDC – 0.5 A

48 VDC – 0.5 A

DC连接器

5.5 mm x 2.1 mm

5.5 mm x 2.1 mm

有线DMX

CRMX接收器

内置

内置

蓝牙网桥系统(BTB)

内置

无线协议

支持CRMX,UHF

CRMX,UHF,蓝牙,Wifi

无线通信距离

CRMX/UHF:300米/330码

CRMX / UHF可达300米/330码 蓝牙最远可达3米/ 3.3码

红外线控制

支持

外壳材料

聚碳酸酯,金属端盖

聚碳酸酯,金属端盖

IP等级

IP65(仅适用于带硅胶帽时)

IP65(仅适用于带硅胶帽时)

环境工作温度

0 – 40 °C / 32 – 104 °F

0 – 40 °C / 32 – 104 °F

重量

1 kg / 2.2 lbs

1 kg / 2.2 lbs

尺寸长x宽x深

Ø 43 x 1035 mm / Ø 1.6" x 40.7"

Ø 43 x 1035 mm / Ø 1.6" x 40.7"

安装选项

2个M5螺纹,2个支架(带2个M5和1个1/4\"-20UNC螺纹),1个地龟脚架

2个M5螺纹,2个支架(带2个M5和1个1/4\"-20UNC螺纹),1个地龟脚架

*Typical value

盒子里有什么?

  • 1 x AX1灯管(AX1)
  • 2 x 灯管支撑架(AX1-H)
  • 1 x 地龟脚架(AX1-STD)
  • 2 x 吊环螺栓(AX1-EBLT)
  • 1 x AX1电源盒(AX1-CHR)

RF射频特性

For AX1 Pixel Tube

Wireless Modules

Modulation

ERP (Transmitter)

Channel Count

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

FHSS

<25mW

47

USA: UHF (917-922.20MHz)

FHSS

<25mW

53

AUS: UHF (922.30-927.50MHz)

FHSS

<25mW

53

SGP: UHF (920.50-924.50MHz)

FHSS

<25mW

41

KOR: UHF (917.9-921.5MHz)

FHSS

<25mW

10

RUS: UHF (868.75-869.12MHz)

FHSS

<25mW

6

JPN: UHF (922.80-926.40MHz)

FHSS

<25mW

19

CRMX (2402-2480MHz)

FHSS

79

***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.

RF射频特性

用于AX1-BTB Pixel灯管

Wireless Modules

Modulation

ERP (Transmitter)

Channel Count

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

FHSS

<25mW

47

USA: UHF (917-922.20MHz)

FHSS

<25mW

53

AUS: UHF (922.30-927.50MHz)

FHSS

<25mW

53

SGP: UHF (920.50-924.50MHz)

FHSS

<25mW

41

KOR: UHF (917.9-921.5MHz)

FHSS

<25mW

10

RUS: UHF (868.75-869.12MHz)

FHSS

<25mW

6

JPN: UHF (922.80-926.40MHz)

FHSS

<25mW

19

CRMX (2402-2480MHz)

FHSS

79

Bluetooth 5.0 LE (2402-2480MHz)

FHSS

10mW (BLE)

40

WiFi (2412-2472MHz)

DSSS, OFDM

<100mW

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.