LDM12 [MPD]

LDM12-xx-xxx;


型号：	LDM12
厂家：	MICROPOWER DIRECT, LLC
描述：	LDM12-xx-xxx
文件：	总4页 (文件大小：590K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

LDM12-xx-xxx

Miniature, Wide Input

Constant Current

DC/DC LED Drivers

Electrical Speciﬁcations

Speciﬁcations typical @ +25°C, nominal input voltage & rated output current, unless otherwise noted. Speciﬁcations subject to change without notice.

Key Features:

Input

Parameter

Input Voltage Range

Maximum Input Voltage

Input Filter

Conditions

Min.

7.0

Typ.

Max.

16.0

20.0

Units

VDC

• Constant Current Output

• Wide 7V to 16V Input Range

• 9ꢀ% Efﬁciency

0.5 Sec

Internal Capacitor

Output

• Miniature MiniDIP Case

• ꢀ00 mA to 1A Output

• Meets EN 60950

Parameter

Output Voltage Range

Output Current

Output Current Accuracy

Output Power

Conditions

Min.

Typ.

Max.

Units

VDC

VIN = 16V

See Model Selection Guide

• ꢀ.ꢀ MHrs MTBF

Efﬁciency

• Digital & Analog Dimming!

Capacitive Load

Operating Frequency

Ripple & Noise (20 MHz)

Temperature Coefﬁcient

Thermal Impedance

Output Short Circuit

Environmental

400

µF

kHz

See Model Selection Guide

0.0ꢀ

%/ºC

ºC/W

Natural Convection

Regulated At Rated Output Current

+ꢀ5

Parameter

Conditions

Min.

-40

Typ.

+25

Max.

+85

+105

+125

Units

ºC

Ambient

Case

Operating Temperature Range

Storage Temperature Range

Cooling

Humidity

Lead Temperature (Solder)

Physical

-40

ºC

Free Air Convection

RH, Non-condensing

1.5 mm From Case For 10 Sec

260

ºC

Case Size

Case Material

Weight

0.50 x 0.40 x 0.27 Inches (12.70 x 10.16 x 6.85 mm)

Non-Conductive Black Plastic (UL94-V0)

0.064 Oz (1.8g)

Remote On/Off Control

Parameter

Conditions

Min.

Typ.

Max.

Units

DC/DC On

Open or 0.ꢀV < VADJ <1.25V

DC/DC Off

VADJ <0.15V

Remote Pin Drive Current

Quiescent Input Current (Shutdown Mode)

PWM Dimming

Parameter

Operation Frequency

Switch On Time

Switch Off Time

Analog Dimming

Parameter

VADJ = 1.25V

VIN = 16V

µA

Conditions

Recommended Maximum

Min.

Typ.

Max.

1.0

Units

kHz

200

MicroPower Direct

292 Page Street

Suite D

Conditions

Min.

0.0

Max.

1.25

100

Units

VDC

Input Voltage Range

Output Current Adjustment

At VADJ Input (Pin 7)

Stoughton, MA 02072

USA

On 0.ꢀ0

1.25

0.15

1.0

Control Voltage Range Limits

VDC

Off

0.0

Drive Current

EMC Compliance

EMI/RFI

Electrostatic Discharge (ESD)

RF Field Susceptibility

Electrical Fast Transients/Bursts On Mains

EMS Immunity

VADJ = 1.25V

T: (781) ꢀ44-8226

F: (781) ꢀ44-8481

E: sales@micropowerdirect.com

W: www.micropowerdirect.com

Radiated/Conducted

Class A

EN 55015 (CISPR22)

IEC/EN 61000-4-2, -6, -8

IEC/EN 61000-4-ꢀ

IEC/EN 61000-4-4

EN61547

Class A

Reliability Speciﬁcations

Parameter

MTBF

Conditions

MIL HDBK 217F, 25ºC, Gnd Benign

Min.

ꢀ.ꢀ

Typ.

Max.

Units

MHours

www.micropowerdirect.com

Model Selection Guide

www.micropowerdirect.com

Input

Output

Maximum

Power

(W)

Ripple &

Model

Number

Efﬁciency

(%, Typ)

Package

Voltage (VDC) Voltage (VDC)

Current

Accuracy (%)

Noise

(mV P-P, Max)

Range

Max (mA)

ꢀ00

LDM12-04-ꢀ00

LDM12-05-ꢀ50

LDM12-07-500

LDM12-08-600

LDM12-10-700

LDM12-14-1000

Notes:

7.0 - 16.0

2.0 - 14.0

4.2

4.9

7.0

8.4

9.8

120

150

200

250

9ꢀ

8 -Pin MiniDIP

ꢀ50

500

600

700

1,000

14.0

1. A reversed power source could damage the unit.

4. The V^ADJinput should be left open if not used. Grounding VADJ will shut the unit

down. Connecting VADJ to VIN may damage the unit.

5. Exceeding the speciﬁed maximum output power could cause damage to the unit.

2. No connection should be made between input ground and the output.

3. These are step-down devices, the maximum output open voltage is

equal to the input voltage.

Typical Connection: DC/DC Input

Connection Notes:

To comply with EN61000-4-5, a TVS should be installed before the input ﬁlter components. A 3.0SMCJ15A or SMCJ16A is recommended. The TVS max clamping voltage (@max peak pulse

current V^C) must be Ϲ20V. This will prevent any surge from exceeding the maximum input of the driver (20 VDC). Exceeding the maximum input rating could damage the driver.

The ﬁlter shown (C1, C2, C3 and L1) will help to meet conducted emission requirements. With the addition of the ﬁlter, the unit should meet the levels of EN 55015.

Typical Connection: AC/DC Input

Connection Notes:

This is a distributed (or two-stage) AC connection. In this conﬁguration, the AC line in (85 to 264 VAC) is connected to the MPM-20S-15EPB, a compact 20W AC/DC

power supply. The MPM-20S-15EPB provides a tightly regulated 15 VDC output at 1,330 mA. The 15 VDC output powers the LED driver.

The two stage approach can simplify the safety approval process (most AC/DC power supplies on the market are approved to EN 60950) and may increase design ﬂex-

ibility. Besides the output voltage/current ratings, other speciﬁcations to consider when selecting the input AC/DC supply might include input range, case size, efﬁciency,

EMI ratings and operating temperature range.

Note: The output current adjustment circuit shown in both connection diagrams is discussed on page 4.

292 Page Street Ste D Stoughton, MA 02072

• TEL: (781) ꢀ44-8226 • FAX: (781) ꢀ44-8481 • E-Mail: sales@micropowerdirect.com

www.micropowerdirect.com

PWM Output Current Control

An LED operates at its maximum efﬁciency when

operated at the rated drive current speciﬁed by

the manufacturer. Operating an LED at lower than

its rated forward current not only decreases the

system efﬁciency; but may cause color (or wave-

length) shifting. In illumination applications, this

could cause visible changes to lighting.

A preferred method is using pulse width modula-

tion (PWM). As shown at left, the output current

is adjusted by applying a PWM signal to the VADJ

input. By varying the signal duty cycle the average

output current is adjusted up or down. To avoid

visible ﬂicker, the PWM signal should be greater

than 200 Hz.

For duty cycles (DPWM) between 0.1 and 1, the

output current is derived by the formula:

PWM Control Signals

I_NOMI_MAXX D_PWM

The VADJ input may be driven via an open collec-

tor transistor (as shown). The diode and resistor

suppress high amplitude negative spikes that may

be caused by the drain-source capacitance of the

transistor. Negative spikes on the control input of

the unit could cause errors in output current or

erratic operation.

The VADJ input can also be driven by the open drain

output of a microcontroller. Again, any high amplitude

negative spikes that may be caused by the drain-

source capacitance of the FET must be supressed.

PWM Dimming Application

A simple method of achieving digital (or PWM) dimming is by using a 555 timer again. The formulas for calculating the frequency and duty cycle are included

to apply a series of pulses to the VADJ input, as illustrated above. The 555 oper-

ates over a supply voltage range of 4.5 VDC to 18VDC. Here it is connected

to the 15 VDC output of the SR7805 switching regulator (this is also the VIN

of the LED driver). Care should be taken to minimize ripple at the VCC input.

Excess ripple could cause timing errors.

in the MPD application note “Driving LEDs”.

The diodes (D1 and D2) allow duty cycles below 50% to be set. Diode D1

bypasses R2 while C4 is charging. Diode D2 is optional (but recommended),

essentially blocking R2 during the charge period. Theoretically, this circuit will

allow for duty cycles over a range of approximately 5% to 95%. If manual

adjustment is desired, a potentiometer may be substituted for R2 (with some

adjustment of the circuit).

The timer is connected for astable (free run) operation. The frequency is set

by R1, R2 and C4. The timing capacitor (C4) charges through R1 and D2. When

it reaches the level of ²/ꢀ VCC, the discharge pin (pin 7) goes low and C4 will

discharge through D1 and R2 to the internal discharge transistor. When the C4

voltage drops to ¹/ꢀ VCC, the discharge pin goes high and C4 begins to charge

The size of C4 is generally not critical, but it should be as low leakage as pos-

sible. In order to avoid excessive current ﬂow through the internal discharge

transistor, it is recommended that R1 be at least 5 k⍀.

MicroPower Direct

• 292 Page Street Ste D Stoughton, MA 02072 • TEL: (781) ꢀ44-8226 • FAX: (781) ꢀ44-8481 • E-Mail: sales@micropowerdirect.com

Analog Output Current Control (VCNT = 5V)

www.micropowerdirect.com

The output current of the unit can also

be set by adjusting the voltage level on

the VADJ input to a value between 0.ꢀV to

1.25V (IOUT will vary from 25% to 100% of

rated output current). Care must be taken

not to exceed 1.25V on this input, or the

driver may be damaged.

A simple analog circuit using two low

cost, switching regulators is shown at

left. Working from inputs that can range

from 20 to ꢀ2 VDC,the top regulator

(SR1) keeps the input to the LED driver

at 15 VDC.

The other regulator (SR2), driven off the same input line maintains

the control voltage (for the VADJ input) at 5 VDC. The resister

network of R1 and R2 can now be used to set the output current

level of the LED driver. This level is equal to:

R₂

ADJ

X V

CTRL

R₁R₂

Analog Output Current Control (5 - 16 VDC IN)

In the second circuit, the 5 VDC regulator

(SR2) is replaced by the shunt regulator (D1)

circuit connected in parallel with the resis-

tor network. The regulator will maintain

the voltage across R2 and Rꢀ at 2.5 VDC,

insuring that the 1.25 VDC limit on the VADJ

pin will not be exceeded.

When using the analog control input, the

nominal output current is equal to:

1.25

ADJ

_NOM=I_MAX

The VADJ input should be left open if not

used. Grounding VADJ will shut the unit

down. Connecting VADJ to directly to +VIN

may damage the unit.

Mechanical Dimensions

Pin Connections

Function

+VIN

+DC Supply

+LED LED Anode Conn.

-LED LED Cathode Conn.

V^ADJ

-V^IN

PWM, On/Off

-DC Supply

Get a full explanation of the

circuits in this datasheet and

LDM12 [MPD]

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