inventronics SSM-760S15AMGR 760W Programmable Driver with INV Digital Dimming Owner’s Manual

inventronics SSM-760S15AMGR 760W Programmable Driver with INV Digital

Dimming

Features

• Panel Mount Connectors Facilitates Installation
• Rotary Switch+RJ12 Connector
• Hot-plugging Protection
• Parallel LED Protection
• Ultra High Efficiency (Up to 95%)
• Full Power at a Wide Output Current Range (Constant Power)
• Adjustable Output Current (AOC) with Programmability
• Isolated 0-10V/PWM/Resistor/3-Timer-Modes Dimmable
• Adjustable Dimming Curve
• INV Digital Dimming, UART-Based Communication Protocol
• Dim-to-Off
• Minimum Dimming Level with 5% or 10% Selectable
• Hold Time Adjustable
• Fade Time Adjustable
• Low Inrush Current
• Output Lumen Compensation
• End-of-Life Indicator
• Input Surge Protection: DM 6kV, CM 10kV
• All-Around Protection: IOVP, IUVP, OVP, SCP, OTP
• IP66 and UL Dry/Damp/Wet Location
• 5 Years Warranty

Description

The SSM-760SxxxMGR series is a 760W, constant-current, programmable and IP66-rated LED driver that operates from 249-528Vac input with excellent power factor. Created for many lighting applications including high mast, sports, UV-LED, aquaculture and horticulture, etc. It provides a rotary switch, RJ12 connector and dim-to-off functionality. The dimming control supports 0-10V dimming as well as two-way communication via Digital Dimming, a UART-based communication protocol. The high efficiency of these drivers and compact metal case enables them to run cooler, significantly improving reliability and extending product life. To ensure trouble-free operation, protection is provided against input surge, input under voltage, input over-voltage, output over-voltage, short circuit, and over-temperature.

Models

Adjustable Output Current

Range(A)

| Full-Power Current Range(A) (1)| Default Output Current(A)| Output Voltage Range(Vdc)| Max. Output Power(W)|

Typical Efficiency (2)

| Typical Power Factor|

Model Number (3)(4)

---|---|---|---|---|---|---|---
277Vac| 480Vac
1.4-15.8| 14-15.8| 14A| 34-54| 760W| 95.0%| 0.99| 0.96| SSM-760S15AMGR

Notes

1. Output current range with constant power at 760W.
2. Measured at 100% load and 480Vac input (see below “General Specifications” for details).
3. Certified voltage range: UL, FCC 277-480Vac; otherwise: 277-400Vac.
4. SELV output.

Operating Area

Input Specifications

Leakage Current

| –| –| 0.75 MIU| UL 8750; 480Vac/60Hz
–| –| 0.70 mA| IEC 60598-1; 480Vac/60Hz

Input AC Current

| –| –| 3.24 A| Measured at 100% load and 277 Vac input.
–| –| 1.87 A| Measured at 100% load and 480 Vac input.
Inrush Current(I2t)| –| –| 1.80 A2s| At 480Vac input, 25°C cold start, duration=6.06 ms, 10%Ipk-10%Ipk.
PF| 0.90| –| –|

At 277-480Vac,50-60Hz, 60%-100%Load (456 – 760W)

THD| –| –| 20%

Output Specifications

Output Current Setting(Ioset Range)

SSM-760S15AMGR

|

1400 mA

|

–

|

15800 mA

|
Output Current Setting Range with Constant Power

SSM-760S15AMGR

|

14000 mA

|

–

|

15800 mA

|
Total Output Current Ripple (pk-pk)| –| 5%Iomax| 10%Iomax| 100% load, 20 MHz BW
Output Current Ripple at

< 200 Hz (pk-pk)

| –| –| 2%Iomax| 70%-100% load
Startup Overshoot Current| –| –| 10%Iomax| 100% load
Parameter| Min.| Typ.| Max.| Notes
---|---|---|---|---
No Load Output Voltage

SSM-760S15AMGR

|

–

|

–

|

60 V

|
Line Regulation| –| –| ±0.5%| 100% load
Load Regulation| –| –| ±3.0%|
Turn-on Delay Time| –| –| 0.5 s| Measured at 277-480Vac input, 60%- 100% Load
Temperature Coefficient of Ioset| –| 0.03%/°C| –| Case temperature = 0°C ~Tc max

General Specifications

Efficiency at 277 Vac input: SSM-760S15AMGR

Io= 14000 mA

Io= 15800 mA

|

91.5%

91.5%

|

93.5%

93.5%

|

–

–

| Measured at 100% load and steady-state temperature in 25°C ambient;

(Efficiency will be about 2.0% lower if measured immediately after startup.)

Efficiency at 400 Vac input: SSM-760S15AMGR

Io= 14000 mA

Io= 15800 mA

|

92.5%

92.5%

|

94.5%

94.5%

|

–

–

| Measured at 100% load and steady-state temperature in 25°C ambient;

(Efficiency will be about 2.0% lower if measured immediately after startup.)

Efficiency at 480 Vac input: SSM-760S15AMGR

Io= 14000 mA

Io= 15800 mA

|

93.0%

93.0%

|

95.0%

95.0%

|

–

–

| Measured at 100% load and steady-state temperature in 25°C ambient;

(Efficiency will be about 2.0% lower if measured immediately after startup.)

Standby Power| –| 1.5 W| –| Measured at 480Vac/50Hz; Dimming off

MTBF

|

–

| 224,000

Hours

|

–

| Measured at 480Vac input, 80%Load and

25°C ambient temperature (MIL-HDBK- 217F)

Lifetime

|

–

| 111,000

Hours

|

–

| Measured at 480Vac input, 80%Load and

70°C case temperature; See lifetime vs. Tc curve for the details

–| 50,000

Hours

| –| Measured at 277Vac input, 100%Load

and 40°C ambient temperature

Operating Case Temperature for Safety Tc_s| -40°C| –| +90°C|
Operating Case Temperature for Warranty Tc_w| -40°C| –| +80°C| Case temperature for 5 years warranty Humidity: 10%RH to 95%RH
Storage Temperature| -40°C| –| +85°C| Humidity: 5%RH to 95%RH
Dimensions

Inches (L × W × H) Millimeters (L × W × H)

|

15.35 × 4.25 × 1.91

390 × 108 × 48.5

| With mounting ear

16.34 × 4.25 × 1.91

415 × 108 × 48.5

Net Weight| –| 3360 g| –|

Dimming Specifications

Dimming Output Range with 10%-100%

(Default)

| SSM-760S15AMGR| 10%Ioset| –| Ioset| 14000 mA ≤ Ioset ≤ 15800 mA
SSM-760S15AMGR| 1400 mA| –| Ioset| 1400 mA ≤ Ioset ＜ 14000 mA
Dimming Output Range with 5%-100%

(Settable)

| SSM-760S15AMGR| 5%Ioset| –| Ioset| 14000 mA ≤ Ioset ≤ 15800 mA
SSM-760S15AMGR| 700 mA| –| Ioset| 1400 mA ≤ Ioset ＜ 14000 mA
Recommended Dimming Input Range| 0 V| –| 10 V|

Default 0-10V dimming mode.

Dim off Voltage| 0.35 V| 0.5 V| 0.65 V
Dim on Voltage| 0.55 V| 0.7 V| 0.85 V
Hysteresis| –| 0.2 V| –
PWM_in High Level| 3 V| –| 10 V|

Dimming mode set to PWM in Inventronics Programming Software.

PWM_in Low Level| -0.3 V| –| 0.6 V
PWM_in Frequency Range| 200 Hz| –| 3 KHz
PWM_in Duty Cycle| 1%| –| 99%
PWM Dimming off (Positive Logic)| 3%| 5%| 8%
PWM Dimming on (Positive Logic)| 5%| 7%| 10%
PWM Dimming off ( Negative Logic)| 92%| 95%| 97%
PWM Dimming on ( Negative

Logic)

| 90%| 93%| 95%
Hysteresis| –| 2%| –

Safety &EMC Compliance

FCC Part 15(1)

| ANSI C63.4 Class B
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: [1] this device may not cause harmful interference, and [2] this device must accept any interference received, including interference that may cause undesired Operation.
EMS Standards| Notes
---|---
EN 61000-4-2| Electrostatic Discharge (ESD): 8 kV air discharge, 4 kV contact discharge
EN 61000-4-3| Radio-Frequency Electromagnetic Field Susceptibility Test-RS
EN 61000-4-4| Electrical Fast Transient / Burst-EFT
EN 61000-4-5| Surge Immunity Test: AC Power Line: Differential Mode 6 kV, Common Mode 10 kV
EN 61000-4-6| Conducted Radio Frequency Disturbances Test
EN 61000-4-8| Power Frequency Magnetic Field Test
EN 61000-4-11| Voltage Dips
EN 61547| Electromagnetic Immunity Requirements Applies To Lighting Equipment

Note: (1) This LED driver meets the EMI specifications above, but the EMI performance of a luminaire that contains it depends also on the other devices connected to the driver and on the fixture itself.

Lifetime vs. Case Temperature

Inrush Current Waveform

Efficiency vs. Load

Power Factor

Total Harmonic Distortion

Hot-plugging Protection
This feature protects LEDs when connecting to a driver that is already powered on. This is disabled by default and can be enabled through the Inventronics Programming Software.

• LED threshold voltage (Vth) is the minimum voltage required for current to flow through the LED load. After this threshold is met, the LED forward voltage (Vf) increases as the current increases.
• Set Vth close to, but higher than the actual LED threshold voltage for optimized performance. The greater the difference between the Vth setting and the actual LED threshold voltage, the higher the overshoot current will be. The Vth setting must be lower than Vf.
• Please test, program, and tune this feature for each LED load design.

Hot-plugging Protection

| LED Threshold Voltage Setting

Range

|

44 V

|

–

|

54 V

| Set Vth close to, but higher than the actual LED threshold voltage
Setting Tolerance| -2%| –| 2%|

Parallel LED Protection
This feature helps protect parallel LEDs from a high, overcurrent condition by limiting the voltage. This is disabled by default and can be enabled through the Inventronics Programming Software.

• Set V_overload close to, but higher than the maximum forward voltage for optimized performance. The greater the difference between the V_overload setting and the maximum forward voltage, the higher the overload stress will be. The V_overload setting must be higher than Vf.
• Please test, program, and tune this feature for each LED load design.

Parallel LED Protection

| Overload Voltage Setting Range| 47 V| –| 56 V| Set V_overload close to, but higher than the maximum LED forward voltage
Setting Tolerance| -2%| –| 2%|

Protection Functions

after over temperature is removed.
Short Circuit Protection| Auto Recovery. No damage will occur when any output is short-circuited. The output shall return to normal when the fault condition is removed.
Over Voltage Protection| Limits output voltage at no load and in case the normal voltage limit fails.
Input Under Voltage Protection (IUVP)| Input Protection Voltage| 220 Vac| 230 Vac| 240 Vac| Turn off the output when the input voltage falls below the protection voltage.
Input Recovery Voltage| 230 Vac| 240 Vac| 250 Vac| Auto Recovery. The driver will restart when the input voltage exceeds the recovery voltage.

Input Over Voltage Protection (IOVP)

| Input Over Voltage Protection|

550 Vac

|

570 Vac

|

590 Vac

| Turn off the output when the input voltage exceeds the protection voltage.
Input Over

Voltage Recovery

|

530 Vac

|

550 Vac

|

570 Vac

| Auto Recovery. The driver will restart when

the input voltage falls below the recovery voltage.

Max. of Input Over Voltage| –| –| 590 Vac| The driver can survive for 8 hours with a stable input voltage stress of 590Vac.

Note: When removing the protective cap of RJ12, the waterproof protection performance should be evaluated together with the external connected system by users.

Input Under Voltage Protection Diagram

Input Over Voltage Protection Diagram

Rotary Switch and RJ12 Connector
The output current can be set as 0, 40%, 60%, 80%, or 100% level by the rotary switch and the output current can be dimmed by the dimming wire in the RJ12 connector when the rotary switch is at ‘EXT’ position. The default mode is in ‘EXT’

Dimming

0-10V Dimming
The recommended implementation of the dimming control is provided below.

Notes

1. Do NOT connect Dim− to the output V− or V+, otherwise the driver will not work properly.
2. The dimmer can also be replaced by an active 0-10V voltage source signal or passive components like a zener.
3. When 0-10V negative logic dimming mode and Dim+ are open, the driver will dim to off and be on standby.

PWM Dimming
The recommended implementation of the dimming control is provided below.

Notes

1. Do NOT connect Dim− to the output V− or V+, otherwise the driver will not work properly.
2. When PWM negative logic dimming mode and Dim+ are open, the driver will dim to off and be on standby.

Resistor Dimming
The recommended implementation of the dimming control is provided below.

Notes

1. Do NOT connect Dim− to the output V− or V+, otherwise the driver will not work properly.
2. When resistor negative logic dimming mode and Dim+ are open, the driver will dim to off and be on standby.

Adjustable Dimming Curve
The 0-10V dimming curve can be set as the corresponding dimming voltage by the Inventronics Multi Programmer. Take the positive logic dimming as an example, the recommended implementation of the dimming control is provided below.

Notes

1. Do NOT connect Dim− to the output V− or V+, otherwise the driver will not work properly.
2. The dimmer can also be replaced by an active 0-10V voltage source signal or passive components like zener.
3. When dimming voltage X point is set to be smaller than Y point, the dimming curve is positive logic; conversely, when X point is set to be bigger than Y point, the dimming curve is negative logic.
4. For best dimming accuracy, the difference between X point and Y point is advised more than 4V.
5. Dimming off voltage adjustable.

• Time Dimming
  Time dimming control includes 3 kinds of modes, they are Self Adapting- Midnight, Self Adapting- Percentage and Traditional Timer.

  • Self Adapting-Midnight: Automatically adjusts the dimming curve based on the on-time of past two days (if difference <15 minutes), assuming that the center point of the dimming curve is midnight local time.
  • Self Adapting-Percentage: Automatically adjusts the on-time of each step by a constant percentage = (actual on-time for the past 2 days if difference <15 min) / (programmed on-time from the dimming curve).
  • Traditional Timer: Follows the programmed timing curve after power on with no changes.

• Output Lumen Compensation
  Output Lumen Compensation (OLC) may be used to maintain constant light output over the life of the LEDs by driving them at a reduced current when new, then gradually increasing the drive current over time to counteract LED lumen degradation.

• Minimum Dimming Level with 5% or 10% Selectable
  The minimum dimming level can be set as 5% or 10% by Inventronics Multi Programmer,10% is default.

• Hold Time Adjustable
  When AC power is first applied to the LED driver, enabling a “Hold” period can allow devices powered by the Auxiliary voltage to stabilize before the driver fades up to the maximum dimming level. During this period, the driver will not respond to external dimming commands but will respond again after the hold time ends. Both the initial dimming percentage and the duration of this hold period can be adjusted by the Inventronics Multi Programmer. This function is disabled by default.

• Fade Time Adjustable
  There is a “Fade” period after the “Hold” period. The soft-start time and dimming slope applied to all dimming transitions can be adjusted individually. It is adjusted by the Inventronics Multi Programmer. This function is disabled by default.

• End Of Life
  End-of-Life (EOL) is providing a visual notification to a user that the LED module has reached the end of manufacturer-specified life and that the replacement is recommended. Once active, an indication is given at each power- up of the driver, which the driver indicates this through a lower light output during the first 1 minute before normal operation is continued.

• Digital Dimming
  Inventronics Digital Dimming is a UART (Universal Asynchronous Receive Transmitter) based communication protocol. Please refer to Inventronics Digital Dimming file for details.

• Daisy Chain Application
  Daisy chain system can support synchronous dimming of up to 100 drivers due to unique dimming interface design, please pay attention to right sequence of ‘IN’ and ‘OUT’ port for RJ12 connection.

• Inventronics supports daisy chain connection for drivers that is dimmed by external controller. All drivers’ rotary switch need to be tuned to ‘EXT’.
• Inventronics offers the solution to use driver itself to control daisy chain dimming without the controller. The rotary switch of the master driver is tuned to required dimming level when the rest of drivers are tuned to ‘EXT’.

Programming Connection Diagram

Note: The driver does not need to be powered on during the programming process.

• Please refer to PRG-MUL2 (Programmer) datasheet for details.

Mechanical Outline

Note: This driver features UL Wet Location, IP66 panel mount connectors to streamline wiring in the field while still supporting stringent environmental conditions. The mating push-lock are not supplied by Inventronics.
Please contact Wieland and Amphenol LTW or one of their suppliers for assistance sourcing the mating pushlock.

Location| Series| Rating voltage/current| PN of connector on driver| PN of mating push-lock
---|---|---|---|---
Vin| Wieland RST20i3| 600V/10A| 96.032.1055.7| 96.031.0055.7 (Spring)

or 96.031.4055.7 (Screw)

Vo| ALTW X-Lok,C-Size| 300V/20A| CC-03PMFS-QC800P| CC-03BFMB-QL8APP

RoHS Compliance
Our products comply with reference to RoHS Directive (EU) 2015/863 amending 2011/65/EU, calling for the elimination of lead and other hazardous substances from electronic products.

Revision History

Change Date|

Rev.

| Description of Change
---|---|---
Item| From| To
2023-02-10| A| Datasheet Release| /| /

2023-12-28

|

B

| Format| /| Updated
Feature| /| Updated
Safety &EMC Compliance| /| Updated
Inrush Current Waveform| /| Updated
Dimming| /| Updated
Mechanical Outline| /| Updated

CONTACT

• Tel: 86-571-56565800
• Fax: 86-571-86601139
• www.inventronics-co.com.
• sales@inventronics-co.com.

References

• PRG-MUL2 - Inventronics
• Application Notes - Inventronics

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