MAX1667EAP+T Maxim Integrated Products, MAX1667EAP+T Datasheet - Page 24

MAX1667EAP+T

Manufacturer Part Number

MAX1667EAP+T

Description

IC SMART BATT CHGR LEVEL2 20SSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1667EAPT.pdf (26 pages)

Specifications of MAX1667EAP+T

Function

Charge Management

Battery Type

All Battery Types

Voltage - Supply

7.5 V ~ 28 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Good PC board layout is required to achieve specified

noise, efficiency, and stable performance. The PC

board layout artist must be given explicit instructions,

preferably a pencil sketch showing the placement of

power-switching components and high-current routing.

Refer to the PC board layout in the MAX1667 evaluation

kit manual for examples. A ground plane is essential for

optimum performance. In most applications, the circuit

will be located on a multilayer board, and full use of the

four or more copper layers is recommended. Use the

top layer for high-current connections, the bottom layer

for quiet connections (REF, CCV, CCI, DACV, GND),

and the inner layers for an uninterrupted ground plane.

Use the following step-by-step guide:

1) Place the high-power components (C1, C6, M1, M2,

Chemistry-Independent,

Level 2 Smart Battery Charger

Figure 12. Kelvin Connections for the Current-Sense Resistors

D1, L1, and R1) first, with their grounds adjacent:

• Minimize current-sense resistor trace lengths and

• Minimize ground trace lengths in the high-current

• Minimize other trace lengths in the high-current

ensure accurate current sensing with Kelvin con-

nections (Figure 12).

paths.

paths:

______________________________________________________________________________________

— Use > 5mm-wide traces.

— Connect CIN to high-side MOSFET drain: 10mm

— Connect rectifier diode cathode to low side.

— MOSFET: 5mm max length.

— LX node (MOSFETs, rectifier cathode, induc-

max length.

tor): 15mm max length.

PC Board Layout Considerations

MAX1667

HIGH-CURRENT PATH

SENSE RESISTOR

Ideally, surface-mount power components are butted

up to one another with their ground terminals almost

touching. These high-current grounds are then con-

nected to each other with a wide, filled zone of

top-layer copper so they do not go through vias. The

resulting top-layer subground plane is connected to the

normal inner-layer ground plane at the output ground

terminals, which ensures that the IC’s analog ground is

sensing at the supply’s output terminals without interfer-

ence from IR drops and ground noise. Other high-cur-

rent paths should also be minimized, but focusing

primarily on short ground and current-sense connec-

tions eliminates about 90% of all PC board layout prob-

lems.

2) Place the IC and signal components. Keep the main

3) Use a single-point star ground where the input

The MAX1667 is a pin- and software-compatible

upgrade to the MAX1647, with the following functional

differences:

1) The PWM duty cycle has been extended to 97%.

2) The internal reference has been changed to

3) The internal voltage DAC has been changed to allow

4) The linear current source (IOUT) has been reduced

5) An internal diode has been added to the IOUT pin to

6) The internal current DAC was changed from 6-bit to

switching nodes (LX nodes) away from sensitive

analog components (current-sense traces and REF

capacitor). Place the IC and analog components on

the opposite side of the board from the power-

switching node. Important: The IC must be no fur-

ther than 10mm from the current-sense resistors.

Keep the gate-drive traces (DH, DL, and BST) short-

er than 20mm and route them away from CSH, CSL,

and REF. Place ceramic bypass capacitors close to

the IC. The bulk capacitors can be placed further

away.

ground trace, power ground (subground plane), and

normal ground plane meet at the supply’s output

ground terminal. Connect both IC ground pins and

all IC bypass capacitors to the normal ground plane.

+4.096V with 1% accuracy over line, load, and tem-

perature.

a program voltage of 18,416mV. Up to four Li+ cells

can be charged.

to 7mA and turns off when the switching regulator is

on.

prevent reverse current from BATT when the DC

source is removed.

5-bit resolution.

Upgrading from MAX1647 to MAX1667

MAX1667EAP+T Maxim Integrated Products, MAX1667EAP+T Datasheet - Page 24

MAX1667EAP+T

Specifications of MAX1667EAP+T

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