MAX15031 Datasheet, PDF(11/16 Page) Maxim Integrated Products – 80V, 300mW Boost Converter and Current Monitor for APD Bias Applications

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MAX15031 Datasheet, PDF (11/16 Pages) Maxim Integrated Products – 80V, 300mW Boost Converter and Current Monitor for APD Bias Applications

◁

80V, 300mW Boost Converter and Current

Monitor for APD Bias Applications

The MAX15031 includes a versatile current monitor

intended for monitoring the APD, PIN, or varactor diode

DC current in fiber and other applications. The

MAX15031 features more than three decades of

dynamic current ranging from 500nA to 4mA and pro-

vides an output current accurately proportional to the

APD current at MOUT.

The MAX15031 also features a shutdown logic input to

disable the device and reduce its standby current to

2ÂµA (max).

Fixed-Frequency PWM Controller

The heart of the MAX15031 current-mode PWM con-

troller is a BiCMOS multiple-input comparator that

simultaneously 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 configu-

ration approaches ideal cycle-by-cycle control over the

output voltage since there is no conventional error

amplifier in the feedback path.

The device operates in PWM mode using a fixed-fre-

quency, current-mode operation. The current-mode fre-

quency loop regulates the peak inductor current as a

function of the output error signal.

The current-mode PWM controller is intended for DCM

(discontinuous conduction mode) operation. No internal

slope compensation is added to the current signal.

Charge Pump

At low supply voltages (2.7V to 5.5V), internal charge-

pump circuitry and an external 10nF ceramic capacitor

connected between CP and CN double the available inter-

nal supply voltage to drive the internal switch efficiently.

In the 5.5V to 11V supply voltage range, the charge

pump is not required. In this configuration, disable the

charge pump by connecting CP to IN and leaving CN

unconnected.

Monitor Current Limit (RLIM)

The current limit of the current monitor is programmable

from 1mA to 5mA. Connect a resistor from RLIM to

ground to program the current-limit threshold up to 5mA.

The current monitor mirrors the current out of APD with

a 1:10 ratio, and the MOUT current can be converted to

a voltage signal by connecting a resistor from MOUT to

SGND.

The APD current-monitor range is from 500nA to 4mA,

and the MOUT current-mirror output accuracy is Â±10%

from 500nA to 1mA of APD current and Â±3.5% from

1mA to 4mA of APD current.

Clamping the Monitor

Output Voltage (CLAMP)

CLAMP provides a means for diode clamping the volt-

age at MOUT; thus VMOUT is limited to (VCLAMP +

0.6V). CLAMP can be connected to either an external

supply or BIAS. CLAMP can be left unconnected if volt-

age clamping is not required.

Adjusting the Boost Converter

Output Voltage (FB/CNTRL)

The boost converter output voltage can be set by con-

necting FB to a resistor-divider from VOUT to ground.

The set-point feedback reference is the 1.245 (typ)

internal reference voltage when VCNTRL > 1.5V and is

equal to the CNTRL voltage when VCNTRL < 1.25V.

To change the converter output on the fly, apply a volt-

age lower than 1.25V (typ) to the CNTRL input and

adjust the CNTRL voltage, which is the reference input

of the error amplifier when VCNTRL < 1.25V (see the

Functional Diagram). This feature can be used to adjust

the APD voltage based on the APD mirror current,

which compensates for the APD avalanche gain varia-

tion with temperature and manufacturing process. As

shown in Figure 4, the voltage signal proportional to the

MOUT current is connected to the ADC (analog to digi-

tal) input of the APD module, which then controls the

reference voltage of the boost converter error amplifier

through a DAC (digital to analog) block connected to

the CNTRL input. The BIAS voltage and, therefore, the

APD current, are controlled based on the MOUT mirror

current, forming a negative feedback loop.

Shutdown (SHDN)

The MAX15031 features an active-low shutdown input

(SHDN). Pull SHDN low to enter shutdown. During shut-

down, the supply current drops to 2ÂµA (30ÂµA from

BIAS) (max). However, the output remains connected to

the input through the inductor and the output diode,

holding the output voltage to one diode drop below

PWR when the MAX15031 shuts down. Connect SHDN

to IN for always-on operation.

______________________________________________________________________________________ 11

▷