EN2340QI-E Enpirion, EN2340QI-E Datasheet - Page 12

EN2340QI-E

Manufacturer Part Number

EN2340QI-E

Description

Power Management IC Development Tools EVAL FOR EN2340QI

Manufacturer

Enpirion

Type

DC/DC Converters, Regulators & Controllersr

Datasheet

1.EN2340QI-E.pdf (20 pages)

Specifications of EN2340QI-E

Rohs

yes

Product

Evaluation Boards

Tool Is For Evaluation Of

EN2340QI

Input Voltage

4.5 V to 14 V

Output Voltage

5 V

Output Current

4 A

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Spread Spectrum Mode

The external clock frequency may be swept

between 0.9MHz and 1.3MHz at repetition

rates of up to 10 kHz in order to reduce EMI

frequency components.

Soft-Start Operation

Soft start is a means to ramp the output voltage

gradually upon start-up. The output voltage rise

time is controlled by the choice of soft-start

capacitor, which is placed between the SS pin (pin

56) and the AGND pin (pin 52).

During start-up of the converter, the reference

voltage to the error amplifier is linearly increased to

its final level by an internal current source of

approximately 10µA. Typical soft-start rise time is

~3.2ms with SS capacitor value of 47nF. The rise

time is measured from when V

ENABLE pin voltage crosses its logic high

threshold to when V

value.

POK Operation

The POK signal is an open drain signal (requires a

pull up resistor to AVIN or similar voltage) from the

converter indicating the output voltage is within the

specified range. Typically, a 100kΩ or lower

resistance is used as the pull-up resistor. The POK

signal will be logic high (AVIN) when the output

voltage is above 90% of the programmed V

the output voltage goes outside of this range, the

POK signal will be a logic low.

Over-Current Protection (OCP)

The current limit function is achieved by sensing

the current flowing through a sense PFET. When

the sensed current exceeds the current limit, both

power FETs are turned off for the rest of the

switching cycle.

removed, the over-current protection circuit will re-

enable PWM operation. If the over-current condition

persists, the circuit will continue to protect the load.

Application Information

Output Voltage Programming and Loop

Compensation

The EN2340QI output voltage is programmed using

a simple resistor divider network. A phase lead

capacitor (C

stabilizing the loop. Figure 6 shows the required

06878

Rise Time (ms): T

) plus a resistor (R

If the over-current condition is

OUT

reaches its programmed

≈ C

[nF] x 0.067

) are required for

> V

UVLOR

OUT

and

. If

Enpirion Confidential

April 16, 2012

The OCP trip point is nominally set as specified in

the Electrical Characteristics table. In the event the

OCP circuit trips consistently in normal operation,

the device enters a hiccup mode. While in hiccup

mode, the device is disabled for a short while and

restarted with a normal soft-start. The hiccup time

is approximately 32ms.

indefinitely as long as the over current condition

persists.

The OCP trip point can be programmed to trip at a

lower level via the RCLX pin. The value of the

resistor connected between RCLX and ground will

determine the OCP trip point. Generally, the higher

the RCLX value, the higher the current limit

threshold. Note that if RCLX pin is left open the

output current will be unlimited and the device will

not have current limit protection. Reference Table 2

for a list of recommended resistor values on RCLX

that will set the OCP trip point at the typical value of

6A, also specified in the Electrical Characteristics

table.

Thermal Overload Protection

Thermal shutdown circuit will disable device

operation when the junction temperature exceeds

approximately 150ºC. After a thermal shutdown

event, when the junction temperature drops by

approx 20ºC, the converter will re-start with a

normal soft-start.

Input Under-Voltage Lock-Out (UVLO)

Internal circuits ensure that the converter will not

start switching until the input voltage is above the

specified minimum voltage. Hysteresis, input de-

glitch and output leading edge blanking ensures

high noise immunity and prevents false UVLO

triggers.

components and the equations to calculate their

values. The values recommended for C

will vary with each PVIN and VOUT combination.

The EN2340 solution can be optimized for either

smallest size or highest performance. Please see

Table 5 for a list of recommended C

values for each solution option.

0.75V < V

1.2V < V

2.0V < V

Table 2: Recommended R

OUT

Range

OUT

≤ 2.0V

≤ 5.0V

≤ 1.2V

www.enpirion.com, Page 12

This cycle can continue

CLX

Values vs. V

CLX

31.6kΩ

33.2kΩ

36.5kΩ

Value

EN2340QI

and R

OUT

Rev: B

EN2340QI-E Enpirion, EN2340QI-E Datasheet - Page 12

EN2340QI-E

Specifications of EN2340QI-E

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