MAX15008EVKIT+ - Maxim Integrated Products, Inc.

General Description

The MAX15008 evaluation kit (EV kit) is a complete,

fully assembled and tested printed-circuit board (PCB)

that demonstrates the capabilities of the MAX15008.

The MAX15008 features a configurable LDO voltage

regulator, a voltage tracker, and an overvoltage protec-

tor. The LDO is configured to 5V, 300mA output. The

voltage tracker is configured to track the LDO output

voltage and provides up to 50mA. The overvoltage pro-

tector threshold is configured to 17.7V.

The EV kit circuit features a RESET output signal to indi-

cate output fault and normal operating conditions. The

EV kit circuit board can also be used to evaluate the

MAX15009, MAX15010†, or MAX15011†ICs.

Features

♦Wide Operating Supply Voltage Range: 5V to 40V

♦300mA LDO Configured to 5V (Supply Voltage ≥

6.5V)

♦50mA Voltage Tracker

♦Configurable Overvoltage Protector Threshold

♦Output Signal (RESET) for Circuit Monitoring

♦Can be Used to Evaluate the MAX15009,

MAX15010†, or MAX15011†ICs

♦Fully Assembled and Tested

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

________________________________________________________________

Maxim Integrated Products

19-0967; Rev 0; 9/07

Component List

Ordering Information

PART TYPE

MAX15008EVKIT+ EV Kit

DESIGNATION QTY DESCRIPTION

C1 1

10µF ±20%, 50V aluminum

electrolytic capacitor (C case)

Panasonic EEEFK1H100UR

C2 1

0.1µF ±10%, 50V X7R ceramic

capacitor (0603)

TDK C1608X7R1H104K

C3 1

0.15µF ±10%, 25V X7R ceramic

capacitor (0603)

TDK C1608X7R1E154K

C4 1

3.3µF ±20%, 50V X7R ceramic

capacitor (1210)

TDK C3225X7R1H335M

C5 1

22µF ±20%, 16V X5R ceramic

capacitor (1206)

Murata GRM31CR61C226M or

Taiyo Yuden EMK316BJ226M

C6 1

10µF ±20%, 35V aluminum

electrolytic capacitor (B case)

Panasonic EEEFK1V100UR

C7 1

22µF ±20%, 50V aluminum

electrolytic capacitor (D case)

Panasonic EEEFK1H220P

DESIGNATION QTY DESCRIPTION

C8, C9, C10 0 Not installed, ceramic capacitors

(0603)

C11, C13 0 Not installed, aluminum electrolytic

capacitors (D case)

C12 0 Not installed, ceramic capacitor

(1210)

D1 1 54V, 5W TVS diode (SMB)

Diodes Inc. SMBJ54A

JU1–JU4 4 2-pin headers

N1 1

100V, 44A n-channel MOSFET (D

pack)

Fairchild FDD3672

R1, R4, R6,

R12–R15 0 Not installed, resistors (0603)

R2 1 0Ω ±5% resistor (0603)

R3, R5, R8,

R10, R11 5 10kΩ ±1% resistors (0603)

R7, R9 2 133kΩ ±1% resistors (0603)

U1 1 MAX15008ATJ+ (32-pin TQFN-EP)

— 4 Shunts (JU1–JU4)

— 1 PCB: MAX15008 Evaluation Kit+

Denotes lead-free and RoHS-compliant.

†

Future product—contact factory for availability.

For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,

or visit Maxim's website at www.maxim-ic.com.

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

2 _______________________________________________________________________________________

Quick Start

Recommended Equipment

• Two 5V to 40V, 1A adjustable power supplies

• Four voltmeters

Procedure

The MAX15008 EV kit is a fully assembled and tested

surface-mount board. Follow the steps below for simple

board operation. Caution: Do not turn on the power

supply until all connections are completed.

1) Verify that shunts are installed across jumpers JU1

(LDO enabled), JU2 (HOLD enabled), JU3 (tracker

enabled), and JU4 (overvoltage protector enabled).

2) Set the first power supply to 10V and disable the

output. Connect the positive terminal of this power

supply to the IN PCB pad. Connect the ground ter-

minal of this power supply to the SGND PCB pad

located next to the IN pad.

3) Set the second power supply to 8V and disable the

output. Connect the positive terminal of this power

supply to the TRACK PCB pad. Connect the ground

terminal of this power supply to the SGND PCB pad

located next to the TRACK pad.

4) Connect a voltmeter across the OUT_LDO and

SGND PCB pads.

5) Connect a voltmeter across the OUT_TRK and

SGND PCB pads.

6) Connect a voltmeter across the OUT_PROTECT and

PGND PCB pads.

7) Connect a voltmeter across the RESET and SGND

PCB pads.

8) Turn on the IN and TRACK power supplies.

9) Verify that the OUT_LDO output measures 5V.

10) Verify that the OUT_TRK output measures 5V.

11) Verify that the OUT_PROTECT output measures 10V.

12) Verify that the RESET output signal measures 5V.

13) The EV kit is ready for further testing.

Detailed Description

The MAX15008 EV kit is a fully assembled and tested

circuit that demonstrates the capabilities of the

MAX15008. The MAX15008 features a configurable LDO

voltage regulator, a voltage tracker, and an overvoltage

protector. The LDO is configured to 5V and provides up

to 300mA. The voltage tracker is configured to track the

LDO output voltage and provides up to 50mA. The over-

voltage protector threshold is configured to 17.7V with

resistors R9 and R10. The LDO output voltage is config-

ured with external resistors R1 and R2. The tracker out-

put voltage can be configured to track a wide range of

voltages up to 35V by replacing resistors R3–R6. The EV

kit input-voltage range is up to 40V, but may have to be

decreased to not exceed the maximum continuous

power dissipation rating of the MAX15008 IC.

The EV kit RESET output signal can be used to monitor

the LDO output operating conditions or to reset circuitry

connected at the LDO output.

Input Power Supplies

The MAX15008 EV kit requires an input power source of

5V to 40V, 1A connected across IN and SGND and anoth-

er 5V to 40V, 1A power source connected across TRACK

and SGND for normal operation. The power source con-

nected to IN supplies power to the MAX15008 IC, the LDO

input, and the overvoltage protector input, while the power

source connected to TRACK supplies power to the tracker

input. The overvoltage protector input (IN2) can be sepa-

rated from the main input (IN) by cutting open the short-

ing trace between the IN and IN2 PCB pads. Connect a

separate power supply across the IN2 and PGND PCB

pads and install a 4.7µF to 10µF electrolytic capacitor at

C11. In order to evaluate the LDO performance at 5V out-

put, never set the IN supply voltage below 6.5V.

Component Suppliers

SUPPLIER PHONE WEBSITE

Diodes Inc. 805-446-4800 www.diodes.com

Fairchild Semiconductors 888-522-5372 www.fairchildsemi.com

Murata Mfg. Co., Ltd. 770-436-1300 www.murata.com

Panasonic Corp. 800-344-2112 www.panasonic.com

Taiyo Yuden 800-348-2496 www.t-yuden.com

TDK Corp. 847-803-6100 www.component.tdk.com

Note: Indicate that you are using the MAX15008 when contacting these component suppliers.

LDO Regulator

The MAX15008 EV kit’s 300mA LDO output (OUT_LDO)

is configured to the 5V default output voltage by resis-

tor R2, which connects the FB_LDO pin to SGND. The

LDO input accepts a power source up to 40V.

However, operating the LDO at maximum conditions

can exceed the maximum continuous power dissipation

rating of the MAX15008 IC. This will cause the IC to

shut down after exceeding the internal thermal shut-

down threshold. The LDO output voltage can be recon-

figured between 1.8V and 11V by removing the 0ΩR2

resistor and installing resistors at R1 and R2. Use the

following equation to select new resistor values:

where R2 is less than 50kΩand OUT_LDO is the

desired LDO output voltage.

LDO Control Logic

The MAX15008 LDO features two logic inputs (EN_LDO

and HOLD) to enable or disable the output during

power-on or normal operating conditions. The EV kit

features jumpers JU1 and JU2, which can be used to

set the EN_LDO and HOLD input pins, respectively.

See Table 1 for jumpers JU1 and JU2 configuration.

RR OUT LDO

12 1 235 1=× −

⎛

⎝

⎜⎞

⎠

⎟

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

_______________________________________________________________________________________ 3

Table 1. LDO Control Logic (Jumpers JU1 and JU2)

OPERATION STATE SHUNT STATUS

(JU1—EN_LDO)

SHUNT STATUS

(JU2—HOLD)LDO OUTPUT OPERATING CONDITIONS

Not installed X Disabled EN_LDO pin is connected to ground SGND through

an internal pulldown

Initial Power On

Installed X Enabled EN_LDO pin is connected to IN

Hold Setup Installed Installed Shunt is installed on jumper JU2, while shunt on

jumper JU1 is in the installed state

Hold Not installed Installed

Enabled

LDO remains enabled if the shunt is removed from

jumper JU1

Off Not installed Not installed* Disabled LDO is disabled if shunt on jumper JU2 is removed,

while shunt on jumper JU1 is not installed

X = Don’t care.

The HOLD pin is internally driven to OUT_LDO if the shunt on jumper JU2 is not installed.

Evaluates: MAX15008–MAX15011

Voltage Tracker

The MAX15008 voltage tracker input power supply, of

up to 40V, must be connected to the TRACK PCB pad.

The tracker output (OUT_TRK) can source up to 50mA

and is configured to track the OUT_LDO output voltage

by connecting the ADJ pin to OUT_LDO through resis-

tor R3, and connecting the FB_TRK pin to OUT_TRACK

through resistor R5. The ADJ pin voltage setting sets

the feedback tracker voltage threshold at the FB_TRK

pin. This feature offers the flexibility of setting the track-

er output at a lower, equal to, or higher than OUT_LDO

output voltage. Use the following equations to select

new resistor values for R3–R6 to reconfigure the

OUT_TRACK tracking voltage:

where OUT_LDO is the LDO output voltage, VADJ is the

voltage setting at the ADJ pin, VFB_TRK is the feedback

voltage, which equals the voltage set at the ADJ pin,

and OUT_TRK is the new tracking voltage. VADJ must

be greater than 1.1V and less than TRACK - 0.5V. If

installed, resistors R4 and R6 must be less than or equal

to 50kΩ. VADJ can be set to 1.235V by installing a 0Ω

(0603 size) surface-mount resistor at R13. If the tracker

output-voltage setting exceeds 35V, capacitor C6 must

be replaced with a higher voltage-rated capacitor.

Voltage Tracker Enable

The voltage tracker can be enabled or disabled by

configuring jumper JU3. See Table 2 for jumper JU3

configuration.

Overvoltage Protector

The MAX15008 EV kit overvoltage protector is config-

ured to operate in overvoltage switch mode. When the

circuit detects an overvoltage condition at the IN2 input

(or IN if IN2 is not separated from IN), the IC turns off n-

channel MOSFET N1 to isolate the power source from

the load. When the voltage at the IN2 input decreases

below the overvoltage threshold, the MAX15008 turns

on N1, reconnecting the power source to the load. The

overvoltage threshold is configured to 17.7V by resis-

tors R9 and R10. Use the following equation to select

new resistor values to modify the overvoltage switch

mode overvoltage threshold:

where R10 is typically 10kΩand OUT_PROTECT is the

desired overvoltage threshold.

The EV kit overvoltage protector can be reconfigured to

operate in overvoltage-limiter mode by cutting open the

shorting trace at resistor R15 and installing a 0Ωresistor

at R14. In this mode, when the circuit detects an overvolt-

age condition at the output load (OUT_PROTECT), the IC

turns off N1 until the load lowers the OUT_PROTECT

voltage below the overvoltage threshold. If the IN2 volt-

age is greater than the overvoltage threshold, the IC will

attempt to regulate the OUT_PROTECT voltage around

this threshold.

The overvoltage threshold for overvoltage-limiter mode

operation is configured to 17.7V by resistors R7 and

R8. Use the following equation to select new resistor

values to modify the overvoltage-limiter mode overvolt-

age threshold:

where R8 is typically 10kΩand OUT_PROTECT is the

new overvoltage threshold. Exercise caution when

operating the overvoltage protector in overvoltage-

limiter mode. Refer to the

Overvoltage-Limiter Mode

section in the MAX15008/MAX15010 IC data sheet for

details.

RR OUT PROTECT

78 1 235 1=× −

⎛

⎝

⎜⎞

⎠

⎟

RR OUT PROTECT

910 1 235 1=× −

⎛

⎝

⎜⎞

⎠

⎟

V OUT LDO R

RR OUT TRK

ADJ

FB TRK ADJ

FB TRK

⎛

⎝

⎜⎞

⎠

⎟

=× −

⎛

⎝

⎜⎞

⎠

⎟

56 1

MAX15008 Evaluation Kit

4 _______________________________________________________________________________________

Table 2. Voltage Tracker (Jumper JU3)

SHUNT STATUS EN_TRK PIN VOLTAGE

TRACKER

Installed Connected to IN Enabled

Not installed

Connected to ground

SGND with internal

pulldown

Disabled

FB TRK ADJ

RR OUT TRK

VFB TRK

=× −

⎛

⎝

⎜⎞

⎠

⎟

56 1

Note: The overvoltage protector does not provide cur-

rent-limiting protection. Verify that the IN2 input supply

current is limited, according to the OUT_PROTECT

load, and that the current ripple rating of capacitors C7

and C11, which is recommended for separate power

operation, is not exceeded.

Overvoltage Protector Enable

The overvoltage protector can be enabled or disabled

by configuring jumper JU4. See Table 3 for jumper JU4

configuration.

RESET

Timeout Period

The MAX15008 EV kit features output signal RESET for

monitoring output OUT_LDO. The RESET output is

asserted high (OUT_LDO voltage) when output

OUT_LDO exceeds the voltage threshold of 92.5% of

the programmed output voltage for the configured time-

out period (tTIMEOUT) of 93ms. Replacing capacitor C3

with a different value reconfigures the timeout period.

Use the following equation to select a new capacitor

value for C3 when adjusting the timeout period:

where tTIMEOUT is in seconds (s) and C3 is the new

capacitor value in farads.

Evaluating the MAX15009, MAX15010, and

MAX15011

The MAX15008 EV kit PCB can be used to evaluate the

MAX15009, MAX15010, or MAX15011 ICs. Remove the

MAX15008 IC (U1) and replace it with any of the three

ICs. The MAX15010 IC integrates the same functions as

the MAX15008 minus the overvoltage protector. The

MAX15009 IC integrates an LDO, a switched output, and

an overvoltage protector. The MAX15011 IC integrates

the same functions as the MAX15009, minus the over-

voltage protector. When evaluating the MAX15009 or

MAX15011 ICs, components C8, C10, and R12 must be

installed. Refer to the MAX15008/MAX15010 or the

MAX15009/MAX15011 IC data sheets for a complete

description of part-to-part differences and configuration.

When evaluating the MAX15010 or MAX15011, it is rec-

ommended either to cut the trace connecting the IN

PCB pad to the IN2 PCB pad (drain of MOSFET N1), or

to connect the gate of N1 to ground by installing a low-

value (0603 size) resistor across the C9 PCB pads.

Also, remove resistor R9 to prevent current leakage

from the IN input.

CtA

TIMEOUT

1 235

=×μ

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

_______________________________________________________________________________________ 5

Table 3. Overvoltage Protector (Jumper

JU4)

SHUNT STATUS EN_PROT PIN OVERVOLTAGE

PROTECTOR

Installed Connected to IN Enabled

Not installed

Connected to

ground SGND with

internal pulldown

Disabled

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

6 _______________________________________________________________________________________

R10

10kΩ

133kΩ

PGND

OUT_PROTECT

22μF

50V

C11

OPEN

IN2

SGND

OUT_TRK

SGND

RESET

SGND

OUT_LDO

22μF

OUT_LDO

R11

10kΩ

OPEN

0Ω

TP1

10kΩ

OUT_LDO

OPEN

ADJ

C12

OPEN

10μF

35V

10kΩ

1% R6

OPEN

133kΩ

10kΩ

R14

OPEN

R15

SHORT

(PC TRACE)

OUT_SW

12811 26 31 32

JU2

0.1μF

0.15μF

3.3μF

50V IN

JU3

JU4

R13

OPEN

ADJ

10μF

50V

C13

OPEN

JU1

SGND

EN_LDO

HOLD

REF

TRACK

EN_TRK

EN_PROT

SGND

OPEN R12

OPEN

23 24 27 28

C10

OPEN

N.C. N.C. N.C. N.C.

PGND

FB_PROT

SOURCE

GATE

FB_TRK

OUT_TRK

ADJ

RESET

FB_LDO

OUT_LDO

N.C. N.C. N.C. N.C.

N.C. N.C. N.C.

MAX15008

TRACK

SGND

Figure 1. MAX15008 EV Kit Schematic

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

_______________________________________________________________________________________ 7

Figure 2. MAX15008 EV Kit Component Placement Guide—

Component Side

Figure 3. MAX15008 EV Kit PCB Layout—Component Side

(Layer 1)

Figure 4. MAX15008 EV Kit PCB Layout—Ground Layer

(Layer 2)

Figure 5. MAX15008 EV Kit PCB Layout—Ground and Signal

Layer (Layer 3)

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are

implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.

_____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600

Evaluates: MAX15008–MAX15011

MAX15008 Evaluation Kit

Boblet

Figure 6. MAX15008 EV Kit PCB Layout—Solder Side (Layer 4)