MEAN WELL HBG-100P Series
100W Constant Current Mode LED Driver
Key Features
- Constant Current mode output
- Circular shape PCB type design
- Built-in active PFC function
- Function options: output adjustable via potentiometer; 3-in-1 dimming (1~10VDC, 10V PWM signal, resistance)
- Typical lifetime > 50,000 hours
- 5 years warranty
Applications
- LED bay lighting
- LED down lighting
- LED spot lighting
- LED mining lighting
- LED stage lighting
Product Description
The HBG-100P series is a 100W AC/DC PCB type LED driver featuring a circular shape design. It operates from 90~305VAC and offers constant current output models with different rated voltage ranges between 36V and 60V. With high efficiency up to 91.5% and a fanless design, the series operates from -40°C to +45°C under free air convection. The HBG-100P is equipped with various function options, including dimming methodologies, to provide optimal design flexibility for LED lighting systems.
GTIN CODE: MW Search: https://www.meanwell.com/serviceGTIN.aspx
Model Encoding
The model encoding follows the pattern: HBG-100P - [Rated Output Voltage] [Type]
Example: HBG-100P-36A
- Series name: HBG-100P
- Rated wattage: 100W
- Rated output voltage: Available in 36V, 48V, 60V models.
- PCB type:
- A-Type: Output current (Io) adjustable via built-in potentiometer.
- B-Type: 3-in-1 dimming function (supports 1~10Vdc, 10V PWM signal, and resistance).
Function Options Table
| Type | Function | Note |
|---|---|---|
| A | Io adjustable through built-in potentiometer. | In Stock |
| B | 3-in-1 dimming function (1~10Vdc, 10V PWM signal and resistance). | In Stock |
Specifications
| Parameter | HBG-100P-36 | HBG-100P-48 | HBG-100P-60 |
|---|---|---|---|
| OUTPUT | |||
| RATED CURRENT | 2.7A | 2A | 1.6A |
| RATED POWER | 97.2W | 96W | 96W |
| CONSTANT CURRENT REGION (Note.2) | 21.6 ~ 36V | 28.8 ~ 48V | 36 ~ 60V |
| OPEN CIRCUIT VOLTAGE (max.) | 37V | 49V | 62V |
| CURRENT ADJ. RANGE | 1.62 ~ 2.7A (A-Type only) | 1.2 ~ 2A (A-Type only) | 1.0 ~ 1.6A (A-Type only) |
| CURRENT RIPPLE | 5.0% max. @rated current | ||
| CURRENT TOLERANCE | ±5.0% | ||
| SET UP TIME (Note.4) | 2000ms / 115VAC | 500ms / 230VAC | |
| VOLTAGE RANGE (Note.3) | 90 ~ 305VAC | 127 ~ 431VDC | |
| FREQUENCY RANGE | 47 ~ 63Hz | ||
| POWER FACTOR | PF≥0.96/115VAC, PF≥0.96/230VAC, PF≥0.94/277VAC@full load | ||
| TOTAL HARMONIC DISTORTION | THD<20%(@load≥60%/115VC,230VAC; @load≥75%/277VAC) | ||
| INPUT | |||
| EFFICIENCY (Typ.) (Note.5) | 91% | 91% | 91.5% |
| AC CURRENT | 1.1A / 115VAC | 0.5A / 230VAC | 0.45A / 277VAC |
| INRUSH CURRENT(Typ.) | COLD START 60A(twidth=550µs measured at 50% Ipeak) at 230VAC; Per NEMA 410 | ||
| MAX. No. of PSUs on 16A CIRCUIT BREAKER | 4 units (type B) / 8 units (type C) at 230VAC | ||
| LEAKAGE CURRENT | <0.75mA / 277VAC | ||
| PROTECTION | |||
| OVER CURRENT | Constant current limiting, recovers automatically after fault condition is removed | ||
| OVER VOLTAGE | 41 ~ 49V | 54 ~ 63V | 65 ~ 75V |
| OVER TEMPERATURE (Note.10) | Shut down o/p voltage, re-power on to recovery | ||
| ENVIRONMENT | |||
| WORKING TEMP. | Ta=-40 ~ +45°C (Refer to "OUTPUT LOAD vs TEMPERATURE" section) | ||
| WORKING HUMIDITY | 20 ~ 95% RH non-condensing | ||
| STORAGE TEMP., HUMIDITY | -40 ~ +80℃, 10 ~ 95% RH | ||
| TEMP. COEFFICIENT | ±0.03%/℃ (0 ~ 45℃) | ||
| VIBRATION | 10 ~ 500Hz, 2G 12min./1cycle, period for 72min. each along X, Y, Z axes | ||
| SAFETY & ISOLATION | |||
| SAFETY STANDARDS | UL8750, CSA C22.2 No.250.13-12; ENEC BS EN/EN61347-1, BS EN/EN61347-2-13, BS EN/EN62384, GB19510.1, GB19510.14, EAC TP TC 004 approved | ||
| WITHSTAND VOLTAGE | I/P-O/P:3.75KVAC I/P-FG:2KVAC O/P-FG:0.5KVAC | ||
| SAFETY & ISOLATION RESISTANCE | I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25°C/70% RH | ||
| EMC | |||
| EMC EMISSION | Compliance to BS EN/EN55015, BS EN/EN61000-3-2 Class C (@load ≥60%) ; BS EN/EN61000-3-3, GB/T 17743, GB17625.1, EAC TP TC 020 | ||
| EMC IMMUNITY | Compliance to BS EN/EN61000-4-2,3,4,5,6,8,11, BS EN/EN61547, light industry level (surge immunity: Line-Earth:4KV, Line-Line:2KV), EAC TP TC 020 | ||
| OTHERS | |||
| MTBF | 2612.1K hrs min. Telcordia SR-332 (Bellcore) ;346.9K hrs min. MIL-HDBK-217F (25°C) | ||
| DIMENSION | Refer to mechanical specification | ||
| PACKING | 0.3Kg; 45pcs/14.5Kg/1.60CUFT | ||
Notes:
- 1. All parameters NOT specially mentioned are measured at 230VAC input, rated current and 25°C of ambient temperature.
- 2. Please refer to "DRIVING METHODS OF LED MODULE".
- 3. De-rating may be needed under low input voltages. Please refer to "STATIC CHARACTERISTIC" sections for details.
- 4. Length of set up time is measured at first cold start. Turning ON/OFF the power supply may lead to increase of the set up time.
- 5. The driver is considered as a component that will be operated in combination with final equipment. Since EMC performance will be affected by the complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again. (as available on https://www.meanwell.com//Upload/PDF/EMI_statement_en.pdf)
- 6. This series meets the typical life expectancy of >50,000 hours of operation when Ta is about 45°C or less.
- 7. Please refer to the warranty statement on MEAN WELL's website at http://www.meanwell.com
- 8. The ambient temperature derating of 3.5°C/1000m with fanless models and of 5°C/1000m with fan models for operating altitude higher than 2000m(6500ft).
- 9. All functional testing must be filled with potting, including OTP function.
- Product Liability Disclaimer: For detailed information, please refer to https://www.meanwell.com/serviceDisclaimer.aspx
Block Diagram
The block diagram illustrates the internal components and signal flow of the HBG-100P series LED driver. It shows the path from AC input through an EMI filter, rectifier, PFC circuit, power switching, output rectification and filtering, to the output terminals (+V, -V). Protection circuits like Over-Temperature Protection (OTP), Over-Load Protection (OLP), Over-Current Protection (OCP), and Over-Voltage Protection (OVP) are integrated, managed by a PWM & PFC Control unit.
Driving Methods of LED Module
This series operates in constant current mode to directly drive LEDs. The output current is normalized by the rated current (Io(%)). The graph shows that in the constant current region, the output voltage can vary depending on the end system configuration. A 'Hiccup Protection' is indicated when the output current exceeds a certain limit.
Diagram Description: A graph with Output Current (Io) normalized by rated current (%) on the x-axis, and Output Voltage (Vo) normalized by rated voltage (%) on the y-axis. The graph depicts a 'Constant Current area' where output current is constant and voltage varies, and a 'Hiccup Protection' zone beyond a certain current level.
Dimming Operation (B-Type)
The HBG-100P series (B-Type) supports 3-in-1 dimming, allowing adjustment of the constant output current level via one of three methods: 1~10VDC, 10V PWM signal, or resistance. Direct connection to LEDs is recommended, and using additional drivers is not advised. The dimming source current from the power supply is typically 100μA.
1. Applying Additive 1 ~ 10VDC
A linear relationship exists between the applied voltage and the output current. As the voltage increases from 1V to 10V, the output current increases proportionally from 10% to 100% of the rated current.
Diagram Description: A circuit diagram shows LED strips connected to the driver's +V and -V terminals. A separate dimming circuit with a voltage source connected to DIM+ and DIM- terminals. A graph shows Output Current (%) vs. Dimming Input Voltage (V).
2. Applying Additive 10V PWM Signal
The output current is adjusted based on the duty cycle of the 10V PWM signal (frequency range 100Hz ~ 3KHz). A higher duty cycle results in a higher output current.
Diagram Description: A circuit diagram similar to the voltage dimming, but with a PWM signal generator connected to DIM+ and DIM-. A graph shows Output Current (%) vs. Duty Cycle (%) of the PWM signal.
3. Applying Additive Resistance
An external resistance connected between DIM+ and DIM- adjusts the output current. The graph shows that increasing resistance (e.g., from 10KΩ to 100KΩ, where N is the number of drivers for synchronized dimming) decreases the output current.
Diagram Description: A circuit diagram shows LED strips connected to the driver, with an external resistance connected between DIM+ and DIM-. A graph shows Output Current (%) vs. Additive Resistance (KΩ).
ON/OFF Control
A switch and relay can be used to turn the lighting fixture ON/OFF. The diagram shows a configuration with a relay and switch controlling the input power or dimming signal, connected to the HBG-100P (B-Type) and the LED lighting fixture.
Diagram Description: A wiring diagram showing AC input (L, N, FG) connected through a switch and relay to the HBG-100P (B-Type) and then to the LED Lighting Fixture. The diagram also indicates connections for dimming (10K/N~100K/N Ohms resistance, 1~10V DC Voltage, 10V PWM Signal).
Performance Characteristics
Output Load vs Temperature
This graph illustrates the allowable output load percentage versus ambient temperature (Ta) for different input voltages (100VAC, 230VAC). It shows that the maximum load is 100% up to 45°C for 230VAC input, with some derating required at lower temperatures or for 100VAC input.
Diagram Description: A graph with Ambient Temperature, Ta (°C) on the x-axis and Load (%) on the y-axis. Lines indicate derating curves for 100VAC and 230VAC input.
Static Characteristic
This graph shows the relationship between input voltage (V) and output load (%). It indicates that the driver operates within a wide input voltage range (90-305VAC) and maintains a stable output load, with a note advising derating under low input voltages.
Diagram Description: A graph with Input Voltage (V) on the x-axis and Load (%) on the y-axis, showing a relatively flat line for output load across the input voltage range.
Power Factor (PF) Characteristic
This graph displays the Power Factor (PF) versus load percentage for different input voltages (115V, 230V, 277V). The PF remains high (above 0.91) across the load range, especially at higher input voltages.
Diagram Description: A graph with Load (%) on the x-axis and Power Factor (PF) on the y-axis. Multiple lines represent PF at different input voltages.
Total Harmonic Distortion (THD)
This graph shows the Total Harmonic Distortion (THD) versus load percentage for different input voltages (115V, 230V, 277V). THD is generally low, especially at higher loads and input voltages.
Diagram Description: A graph with Load (%) on the x-axis and THD (%) on the y-axis. Multiple lines represent THD at different input voltages.
Efficiency vs Load
This graph presents the efficiency (%) versus load percentage for different input voltages (115V, 230V, 277V). The HBG-100P series achieves high efficiency, up to 91.5% at 230V input and full load.
Diagram Description: A graph with Load (%) on the x-axis and Efficiency (%) on the y-axis. Multiple lines represent efficiency at different input voltages.
Mechanical Specification
The mechanical specifications detail the physical dimensions and wiring connections for both A-type and B-type models. The dimensions are provided in millimeters (mm) with a tolerance of ±1mm. The diagrams show the layout of components on the PCB and the location of input/output wiring and dimming connections.
Diagram Description (A-type): Shows a circular PCB layout with overall dimensions (e.g., 300±20 mm, 200±20 mm). Input connections (AC/L, AC/N, FG) are indicated with wire types (SJTW 18AWG*3C). Output connections (-V, +V) are indicated with wire types (SJTW 18AWG*2C). Key components are positioned on the PCB.
Diagram Description (B-type): Similar to A-type, but includes additional dimming connections (DIM+, DIM-) with specific wire types (Purple, Pink) and UL2517 22AWG*2C cable.
