MAX15059EVKIT+ Maxim Integrated Products, MAX15059EVKIT+ Datasheet - Page 12

MAX15059EVKIT+

Manufacturer Part Number

MAX15059EVKIT+

Description

EVAL KIT FOR MAX15059

Manufacturer

Maxim Integrated Products

Datasheets

1.MAX15059AETET.pdf (16 pages)

2.MAX15059EVKIT.pdf (6 pages)

Specifications of MAX15059EVKIT+

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Lead free / RoHS Compliant

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76V, 300mW Boost Converter and Current

Monitor for APD Bias Applications

The MAX15059 constant-frequency, current-mode, PWM

boost converters are intended for low-voltage systems

that require a locally generated high voltage. This device

is capable of generating a low-noise, high output volt-

age required for PIN and varactor diode biasing. The

MAX15059 operates from +2.8V to +5.5V.

The MAX15059 operates in discontinuous mode in

order to reduce the switching noise caused by reverse

recovery charge of the rectifier diode and eliminates

the need for external compensation components. Other

continuous-mode boost converters generate large volt-

age spikes at the output when the LX switch turns on

because there is a conduction path between the output,

diode, and switch to ground during the time needed

for the diode to turn off and reverse its bias voltage. To

reduce the output noise even further, the LX switch turns

off by taking 10ns typically to transition from on to off.

As a consequence, the positive slew rate of the LX node

is reduced and the current from the inductor does not

“force” the output voltage as hard as would be the case

if the LX switch were to turn off faster.

The constant-frequency (400kHz) PWM architecture

generates an output voltage ripple that is easy to filter.

An 80V lateral DMOS device used as the internal power

switch is ideal for boost converters with output voltages

up to 76V. The MAX15059 can also be used in other

topologies where the PWM switch is grounded, like

SEPIC and flyback converters.

The MAX15059 includes a versatile current monitor

intended for monitoring the APD, PIN, or varactor

diode DC current in fiber and other applications. The

MAX15059 features more than three decades of dynam-

ic current ranging from 500nA to 4mA and provides an

output current accurately proportional to the APD current

at MOUT. MOUT output accuracy is Q10% from 500nA to

1mA and Q5% from 1mA to 2mA.

The MAX15059 also features a shutdown logic input to

disable the device and reduce its standby current to 2FA

(max).

The heart of the MAX15059 current-mode PWM control-

ler is a BiCMOS multi-input comparator that simulta-

neously processes the output-error signal and switch

current signal. The main PWM comparator uses direct

summing, lacking a traditional error amplifier and its

associated phase shift. The direct summing configura-

_____________________________________________________________________________________

Fixed-Frequency PWM Controller

Detailed Description

tion approaches ideal cycle-by-cycle control over the

output voltage since there is no conventional error ampli-

fier in the feedback path.

This device operates in PWM mode using a fixed-

frequency, current-mode operation. The current-mode

frequency loop regulates the peak inductor current as a

function of the output-voltage error signal.

The current-mode PWM controller is intended for DCM

operation. No internal slope compensation is added to

the current signal.

The current limit of the current monitor is programmable

from 1mA to 4.6mA (typ). Connect RLIM to SGND to get

a default current-limit threshold of 4.6mA or connect a

resistor from RLIM to SGND to program the current-limit

threshold below the default setting of 4.6mA. Calculate

the value of the external resistor, R

rent limit, I

CLAMP provides a means for diode clamping the volt-

age at MOUT; thus, V

CLAMP can be connected to either an external supply or

BIAS. Leave CLAMP unconnected if voltage clamping is

not required.

The MAX15059 features an active-low shutdown input

(SHDN). Pull SHDN low or leave it unconnected to enter

shutdown. During shutdown, the supply current drops

to 2FA (max). The output remains connected to the

input through the inductor and output rectifier, holding

the output voltage to one diode drop below IN when

the MAX15059 is in shutdown. Connect SHDN to IN for

always-on operation.

Apply a voltage to the CNTRL input to set the feedback

set-point reference voltage, V

Diagram). For V

reference voltage is used as the feedback set point and

for V

reference voltage (V

CNTRL

Clamping the Monitor Output Voltage

LIM

< 1.2V, the CNTRL voltage is used as the

(k )

, using the following equation:

W =

CNTRL







Set-Point/Reference Voltage







MOUT

LIM

1.23V

set equal to V

> 1.3V, the internal 1.23V (typ)

(mA)

Adjusting the Feedback

is limited to (V







REF

x 10 2.67(k )

LIM

(see the Functional

−

CNTRL

, for a given cur-

Current Limit

CLAMP

Shutdown

(MOUT)







+ 0.6V).

MAX15059EVKIT+ Maxim Integrated Products, MAX15059EVKIT+ Datasheet - Page 12

MAX15059EVKIT+

Specifications of MAX15059EVKIT+

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