Hytronik Hbem02 Emergency Inverter Instruction Manual

HBEM02 Emergency Inverter

Detached Emergency Driver with

5.0 SIG Mesh

HBEM02

Self-Test

-T

Product Description

HBEM02 is an emergency inverter with RJ12 connection for optional sensor heads SAM20, SAM21, SAM22, SAM23, HIR05, HIR05/FM, HIR07, HIR11 series, HIR12, HIR63 series. When the sensor head is not attached to, HBEM02 alone is a normal emergency inverter with self-test function.

With gateway HBGW01 ready, user can generate emergency testing

report through our

app. HBEM02 can also conduct monthly

or annually testing automatically and user can get email notification as soon

as fault is detected. Meanwhile, simple device setup and commissioning

can be done via

app.

App Features

Hardware Features

Quick setup mode & advanced setup mode

>0.93 Active PFC design

Draft Web app/platform for project deployment & data analysis Koolmesh Pro app on iPad for on-site configuration Floorplan feature to simplify project planning Emergency report generation and diagnosis One-key device replacement Device social relations check Staircase function (primary & secondary) Remote control via gateway support HBGW01 Grouping luminaires via mesh network Tri-level control Daylight harvest Circadian rhythm (Human centric lighting) Push switch configuration Detailed motion sensor settings Schedule

Over-temperature Protection Short-circuit Protection Overload Protection 5-year warranty, designed for long lifetime up to 50,000 hours
Emergency Features Multi emergency wattage: 2W/3W/4W 2/3W 4W 6W
Multiple Wattage Emergency Output
Emergency working mode:
Emergency
– Normal emergency mode – Rest mode – Inhibit mode

Astro timer (sunrise and sunset) Power-on status (memory against power loss) Offline commissioning Bulk commissioning (copy and paste settings) Different permission levels via authority management Network sharing via QR code or keycode

– Extended emergency mode Monthly/Annually Automatic Testing with report generation Battery status check via Koolmesh app Automatic email notification when fault is detected

Interoperability with Hytronik Bluetooth product portfolio

Retrievable usage data and report history

Compatible with EnOcean BLE switches

Internet-of-Things (IoT) featured

Device firmware update over-the-air (OTA)

Continuous development in progress…

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 1/11

Emergency Power and time Selection

4W

3H

3W

1H
1

2W
23

Technical Specifications

5.0 SIG mesh

iOS

Android

for iOS

for Android

Smartphone app for both iOS & Android platform

for iPad Koolmesh Pro app for iPad
Web for Web
Web app/platform: www.iot.koolmesh.com

Bluetooth Transceiver

Operation frequency

2.4 GHz – 2.483 GHz

Transmission power

4 dBm

Range (Typical indoor)

10~30m

Protocol

5.0 SIG Mesh

Draft Model No.
Mains voltage Mains current Max. emergency output power Output voltage(U-out Max.) Power factor Operation temperature Storage temperature Load LED voltage Battery pack
Battery Type (LiFePO4) / Discharge current / Max. load / Discharge hour Battery charging

Fully support EnOcean self-powered switch module PTM215B (HBES01/W & HBES01/B)
HBEM02 220~240VAC 50/60Hz
Max. 25mA 4W 60V >0.7
0~+50¥ -10~+35¥
24 – 55V
BPC83, BPC84 BPC83/BPC84: 6.4V, 3.4AH / 0.45A, 2W@24 – 50V / 180min BPC83/BPC84: 6.4V, 3.4AH / 0.65A, 3W@24 – 50V / 180min BPC83/BPC84: 6.4V, 3.4AH / 0.85A, 4W@24 – 50V / 180min
0 – 500mA

Charge period

16h

Max. case temp.

70¥

Abnormal protection

Output short-circuit protection, Overload Protection, Open-circuit Protection

Battery abnormal protection

Short circuit protection Reverse connection protection Deep discharge protection

EMC standard

EN55015, EN61547, EN61000-3-2, EN61000-3-3, EN300328, EN301489-17

Safety standard

EN61347-1, EN62493, EN61347-2-7, EN62034, IEC62133

Certifications IP grade

CE, RCM, UKCA, ROHS IP20

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 2/11

Mechanical Structure & Dimensions
HBEM02
L N Lin Lout

FROM LED DRIVER

OUTPUT TO LEDS

RED + BLACK

—

Battery

Connection

Test Switch

LED Indicator

Emergency time and Power Selection

Sensor-Dim Connection

40.5

4.5

152.5

22

Draft 160

Wire Preparation
0.5-1.5 8mm

0.4- 0.5 8mm

Solid or Stranded wire type 0.5 – 1.5mm2
0.4 – 0.5mm2
To make or release the wire from the terminal, use a screwdriver to push down the button.

Wiring Diagram

With sensor head

220-240Vac 50/60HZ
L1 L2 N PE

N

MAX. LED LOAD: 60V & 2A

L

*It could be any driver from Hytronik or the third party

L N

FROM LED DRIVER

–+

OUTPUT TO LEDS -+–

Lin Lout

Battery supply

–+

Green & Red

Battery ( 6.4v LiFePO4 )

SAM20

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 3/11

Without sensor head
220-240Vac 50/60HZ L1 L2 N PE

N

MAX. LED LOAD: 60V & 2A

L

*It could be any driver from Hytronik or the third party

L N

FROM LED

DRIVER

–+

OUTPUT TO LEDS -+–

Lin Lout

Battery supply +—

Green & Red

Battery ( 6.4v LiFePO4 )

Loading and In-rush Current

Model

HBEM02

Draft In-rush Current (Imax.) Pulse Time

6A 120 s

Circuit Breaker Information

Automatic circuit breaker type

B16A

B10A

B13A

B20A

B25A

HBEM02

919

574

746

1148

1435

Calculation uses typical values from ABB series S200 as a reference. E.g. Maximum amount =16/(Pn/230)We recommend to use no more than 60% of the data as the actual max. number of drivers in real application. Actual values may differ due to used circuit breaker types and installation environment.
Performance Characteristics

2W Output Current vs Forward Voltage
0.12

3W Output Current vs Forward Voltage
0.14

0.10

0.12

Lamp Current(A) Lamp Current(A)

0.08

0.10

0.06

0.08

0.04

0.06

0 24

30

40

50

Load Forward Voltage(V)

0 24

30

40

50

Load Forward Voltage(V)

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 4/11

0.20 0.17 0.14 0.11 0.08

4W Output Current vs Forward Voltage

Lamp Current(A)

0 24

30

40

50

Load Forward Voltage(V)

Draft Normal Mode
It is the mode in which mains supply is available, with the battery charged or charging. In this mode, HBEM02 can be controlled by app to set emergency parameters.
Emergency Mode
It is the mode in which mains supply has failed and whilst the control gear is powered by the battery until deep discharge point. In this mode, HBEM02 is unable to be controlled by motion sensor, Push switch and app. However, some emergency parameters can still be configured via the app, such as time scheduled for self-test, duration for extended emergency mode etc.
Rest Mode
It is the mode in which the luminaire is intentionally off whilst the control gear is powered by the battery. To enter this mode, the prerequisite is that there is no mains supply. In this mode, the luminaire will be turned off automatically and HBEM02 is powered by the battery. If the luminaire is forced to turn on in this mode, HBEM02 will then be adjusted to emergency mode. When mains supply is recovered, HBEM02 will return to normal mode.
Inhibit Mode
It is the mode in which HBEM02 is powered from the mains but prevented from going into emergency mode in the event of mains failure.Please enter this mode only in special applications whereby emergency function is not needed, such as when electrician needs to cut off power supply when doing examination and maintenance work for HBEM02.
Extended Emergency Mode
It is the mode in which the control gear continues to operate the lamp in the same way as in emergency mode for the programmed prolong time after the restoration of the mains supply. When this mode is enabled, HBEM02 will remain in emergency mode even when mains supply is recovered. In this mode, the user has to set the time extended for emergency mode; when the time extended elapses, HBEM02 will then return to normal mode.
Self test (Monthly)
HBEM02 carries out routine test on emergency lighting based on pre-programmed time via the app or after receiving manual commands from the app. During the self test process, tests for load connections (such as open circuit, short-circuit) and battery connections (such as open circuit, short-circuit, polarity reversal etc.) will be carried out.
Self test (Annually)
The test is carried out mainly to check the battery level. The user has to make sure that the battery for HBEM02 is fully charged before HBEM02 carries out annual test or annual test. Also, the battery lifetime statistics will be analysed and displayed on a chart basis.

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 5/11

LED Diagnostics

Indicator Colour GREEN SOLID

Status Device OK

Meaning All OK, AC power is present. Battery is connected & charging

GREEN FAST FLASH
(0.1s ON, 0.1s OFF)

Monthly test/Functionality test

GREEN VERY SLOW FLASH
(1s ON, 1s OFF)

Annual test/Duration test

AC power is present. Monthly test in progress Annual test are being carried out

RED SOLID

Emergency LED fault

Emergency LED is open circuit, short circuit or has otherwise failed in some way,. Fault can indicate the live status or the result of a test

Draft RED SLOW FLASH
(1s ON, 1s OFF)
RED /GREEN OFF

Battery fault No power available

Battery failure (Battery failed the duration or functional test, battery appears to be defective, battery has incorrect voltage).
AC power is lost, unit in emergency mode

*If you want to see the diagnostic report, please go to the APP or web platform to see the full report and analysis
Note: Before powering on, please plug in the sensor head and then plug in the battery, otherwise the sensor is disabled. Remedy: Only after the APP is reset and re-connected to the network can the sensor head be re-identified.

Battery Pack Options

Package code

Picture

Spec.

Size (mm)

Duration

Recharge Time

Accessories

BPC83

LiFePO4, 6.4V, 3.4Ah

110x55x27

3h @3W >3h @2W

16h

Battery bracket, LED indicator,
Test switch

BPC84

LiFePO4, 6.4V, 3.4Ah

>3h @3W

Battery bracket,

170x30x27

>3h @2W

16h

LED indicator, Test switch

Please kindly note that the optimal storage temperature should be 22°C to28°C. The relative humidity (RH) for battery storage should be 45% to 85%. Keep the battery wires unconnected if the battery is intended to be stored for more than 3 months. The maximum battery cycles under 55°C should not exceed 80 times. Please kindly charge battery for 24 hours before using. Do not short-circuit the battery pack. In case of a short circuit the battery protection opens the connection to the driver and the output is therefore free of voltage. At this time, it will falsely report battery failure The output will be reactivated again when the short circuit is removed.

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 6/11

Technical Specifications for Sensor Heads

PIR Sensor Properties

HF Sensor Properties

Sensor principle

PIR detection

Sensor principle

High Frequency (microwave)

Operating voltage

5VDC

Operating voltage

5VDC

HIR05 & HIR05/FM & HIR05/AA & & HIR07 Max installation height3m

Detection range *

Max detection range6m (diameter) HIR11 Max installation height15m (forklift)
12m (single person)

Max detection range24m (diameter)

HIR12 Max installation height15m (forklift)

12m (single person)

Max detection range18m * 6m (L * W)

Operation frequency

5.8GHz +/- 75MHz

Transmission power

<0.2mW

Detection range *

SAM20 & SAM21 & SAM22 & SAM22/AA Max installation height3m

Max detection range12m (diameter)

SAM23 Max installation

height15m

(forklift)

12m (single person)

Max detection range20m (diameter)

HIR63 Max installation height3m

Draft Max detection range12m (diameter) HIR63/R Max installation height8m Max detection range10m (diameter) * The detection range is heavily influenced by sensor placement (angle) and different walking paces. It may be reduced under certain conditions.
PIR & microwave sensor heads
The range of PIR and microwave sensor heads below offers powerful number of Plug’n’Play feature options to expand the flexibility of luminaires design. This approach to luminaire design reduces space requirements and component costs whilst simplifying production.

A. HIR05 PIR sensor head The cable length is around 65cm.

Lens Installation hole RJ12 connector

30 35 39.5

20.3 21.5 26.5 35.3

2.5 30
1.5 16
23.3 25.8

Ø41

B. HIR05/FM PIR sensor head The cable length is around 65cm.

Lens Accessories RJ12 connector

Ø48 38.9

Installation hole

C. HIR05/AA
PIR sensor head Adjustable angle The cable length is around 65cm.

85 72

Ø89.5 75

Installation hole

Ø78

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 7/11

D. HIR07
PIR sensor head Photocell AdvanceTM The cable length is around 30cm.

Lens RJ12 connector

E. HIR11/S
PIR sensor head Surface mounting For highbay application IP65 (facia / lens part) The cable length is around 65cm.

Lens Housing RJ12 connector

Ø13.8 40.9 44.5
Ø36.3 Lug

16.4 17 19.3 17.8 15.9 12.9

Installation hole

20 23.2
32.6 17
Ø1Ø7.3.55

Draft F. HIR11/F

Lens Accessories

PIR sensor head

Flush mounting

Ø48

For highbay application

IP65 (facia / lens part) The cable length is around 65cm.

RJ12 connector

25 25 33.9
Ø14

1.2 21.5
30.4 Ø41

Installation hole

G. HIR11/C PIR sensor head Screw to the luminaire by conduit For highbay application IP65 (facia / lens part) The cable length is around 65cm.
H. HIR12 PIR sensor head

Lens Accessories

RJ12 connector

Ø40.5

M13

12 42.7 63

Lens Accessories
16.5 45

Installation hole

Installation hole

63

Ø33

For highbay application

38.2

27.5

33

IP65 (facia / lens part)

The cable length is around 65cm.

RJ12

75

49.5

Installation for HIR12

Thickness: 0.8mm ­ 1.6mm

We suggest that the metal plate thickness to be 0.8mm ­ 1.6mm to ensure perfect focal length for the PIR lens.

I. HIR63

PIR sensor head

The cable length is around 65cm.

RJ12

Subject to change without notice.

Installation hole

Ø 32

22.4 31.8

Ø

+ 22.23 –

0.78 0.41

21.7

Edition: 16 Jun. 2021 Ver. Draft Page 8/11

27 22

J. HIR63 with HA04 PIR sensor head The cable length is around 65cm.

RJ12

Ø 15 52

25 33.3

Installation hole

R2.3±0.1

17.2±0.1

44.2±0.1

K. HIR63 with HA05 PIR sensor head
The cable length is around 65cm.

RJ12

Ø 15 68

Installation hole

Max R0.5

22±0.2

22.4 31.7

21.7

60±0.2

Installation hole

L. HIR63/R

22.7 34 43.4

PIR sensor head

Ø

+ 22.23

0.78 – 0.41

2.5 6.6
25.2 24.3
15.5

Draft IP65 (facia / lens part)

RJ12

Ø 36

1.5 13 8.8 6.8

13.9 40.3

The cable length is around 65cm.

21.7

M. SAM20

HF sensor head

Photocell AdvanceTM

The cable length is around 30cm.

34.7

35.9

40.4

Cable side entry
Ø4

2.5 25

11.2

Ø4.5
Cable back entry

N. SAM21 HF sensor head

HF antenna module Ø41

IP65

The cable length is around 65cm.

M16 14.6

O. SAM22

38.9

HF sensor head

Ø48

1.2 21.5 26.5

Flush mount

The cable length is around 65cm.

P. SAM22/AA
HF sensor head Adjustable angle The cable length is around 65cm.

81 72

Ø89.5 75

Installation hole

Ø78

45.2 2.5 33.5 50.2 26.5 2 9

Q. SAM23 HF sensor head

Infrared remote receiver

15

Slots for T8 tube

12

Photocell advanceTM Daylight sensor

Photocell advanceTM

For highbay application

The cable length is around 30cm. 32.2 Slots for T5 or T8 tube

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 9/11

Detection Pattern
SAM23 0

SAM20 & SAM21 & SAM22 & SAM22/AA

10

0

6

Ceiling mounted height (m) Ceiling mounted height(m)

10% 30% 50% 75%
15

10% 30% 50% 75%
3

Ceiling mounted detection pattern (m)

Ceiling mounted detection pattern (m)

Draft HIR05 & HIR05/FM & HIR05/AA & HIR07 3m
Radial movement 4m Tangential movement 6m

HIR12
3m 5m
12m 15m
*for forklift

Up to 8m Up to10m
Up to12m Up to 18m

Up to 4m Up to 5m

Up to 6m

Up to 6m

HIR63

HIR63/R

3

8m (person)

3m

10m (forklift)

Tangential movement up to 12m

Tangential movement up to 10m

*The detection patterns are based upon 5km/h movement speed.

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 10/11

HIR11 Series (High-bay)

HIR11series: High-bay lens detection pattern for forklift @ Ta = 20OC (Recommended installation height 10m-15m)

A: Tangential movement

B: Radial movement

Mount height

Tangential (A)

Radial (B)

10m

max 380m2 (Ø = 22m) max 201m2 (Ø = 16m)

h = max.15m ”
Tangential: max. 24m

h = max.15m
# Radial: max. 16m

11m 12m 13m 14m

max 452m2 (Ø = 24m) max 452m2 (Ø = 24m) max 452m2 (Ø = 24m) max 452m2 (Ø = 24m)

max 201m2 (Ø = 16m) max 201m2 (Ø = 16m) max 177m2 (Ø = 15m) max 133m2 (Ø = 13m)

insensitive

sensitive

insensitive

sensitive

15m

max 452m2 (Ø = 24m) max 113m2 (Ø = 12m)

Draft HIR11 series: High-bay lens detection pattern for single person @ Ta = 20OC (Recommended installation height 2.5m-12m)

A: Tangential movement

B: Radial movement

h = max.12m
”
Tangential: max. 20m

h = max.12m

#

Radial: max. 3m

insensitive

sensitive

insensitive

sensitive

Mount height 2.5m 6m 8m 10m 11m 12m

Tangential (A) max 50m2 (Ø = 8m)

Radial (B) max 7m2 (Ø = 3m)

max 104m2 (Ø = 11.5m) max 7m2 (Ø = 3m) max 154m2 (Ø = 14m) max 7m2 (Ø = 3m)

max 227m2 (Ø = 17m) max 7m2 (Ø = 3m) max 269m2 (Ø = 18.5m) max 7m2 (Ø = 3m) max 314m2 (Ø = 20m) max 7m2 (Ø = 3m)

Additional Information / Documents

1. Regarding precautions for Bluetooth product installation and operation, please kindly refer to www.hytronik.com/download/knowledge ->Bluetooth Products – Precautions for Product Installation and Operation

2. Regarding precautions and usage for LiFePO4 battery, please kindly refer to www.hytronik.com/download/knowledge ->LiFePO4 Battery – Precautions and Usage

3. Data sheet is subject to change without notice. Please always refer to the most recent release on www.hytronik.com/products/bluetooth technology ->Bluetooth Emergency Driver/Inverter

4. Regarding Hytronik standard guarantee policy, please refer to www.hytronik.com/download/knowledge ->Hytronik Standard Guarantee Policy

Subject to change without notice.

Edition: 16 Jun. 2021 Ver. Draft Page 11/11

References

• iot.koolmesh.com