APGDT002 Microchip Technology, APGDT002 Datasheet - Page 5

MCU, MPU & DSP Development Tools CAN Bus Analyzer

APGDT002

Manufacturer Part Number

APGDT002

Description

MCU, MPU & DSP Development Tools CAN Bus Analyzer

Manufacturer

Microchip Technology

Series

-r

Datasheet

1.DM164130-3.pdf (12 pages)

Specifications of APGDT002

Silicon Manufacturer

Microchip

Kit Application Type

Interface

Application Sub Type

CAN Bus Analyzer

Kit Contents

CAN BUS Analyzer Tool, Cable, User Guide/Software CD

Tool Type

Bus Analyzer

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

PC to CAN Communications

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

APGDT002

Manufacturer:

Microchip Technology

Quantity:

135

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

APGDT002

Manufacturer:

MICROCHIP

Quantity:

12 000

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With increased electronics penetration across the

broad spectrum of applications within the vehicle, the

number of ECMs continues to expand – taxing the

vehicle's power budget. Some higher end vehicles can

have over 80 ECMs, which means that current loads

are increasing. An increase in battery size to support

the growing power requirements is an alternative to

overcoming this challenge. However, larger batteries do

not always provide a good tradeoff in an environment

where space is limited and weight is critical, due to the

negative impact on fuel consumption.

A better alternative is to use nanoWatt XLP, Microchip's

innovative solution to address the operational power

consumption of the ECMs. Through a unique blend of

design techniques, ﬂ exible power management features

and process technology, nanoWatt XLP technology

allows engineers to manage static, active and average

power consumption.

In those ECMs which consume power when the ignition

is off, using nanoWatt XLP-based PIC microcontrollers,

with industry leading low sleep currents, gives the

system designer the abilty to tackle the power budget

challenges.

Driving nanoWatt XLP into Tomorrow’s Vehicles

PIC MCUs with nanoWatt Technology also support up to

nine oscillator modes, which include:

■

■ 

Low Power Safety

In addition to peripherals, products with nanoWatt XLP

have system supervisory circuits specially designed for

battery powered products.

■

Beneﬁ ts of nanoWatt XLP Technology:

■

■ 

 Ultra Low Power Wake-up (ULPW) mode

 Conﬁ gurable Idle, Sleep and Deep Sleep modes

 Advantageous two-speed start-up feature

– Reduces current draw during wake-up.

– Let designers tailor current consumption levels

– Allows seamless transition by running from either

Clock frequency can be switched on the ﬂ y

– Allowing no delay in code execution on transitions

The Deep Sleep Brown-out Reset protects

applications when batteries are depleted and

changed, yet consumes a tiny 45 nA of current

The Real-time Clock Calendar module on products

with Deep Sleep can continue to run provide precise

time for less than 500 nA

Using a dedicated on-chip oscillator, the standard

WDT and Deep Sleep WDT provide protection against

system failure for less than 500 nA.

Sleep currents down to 20 nA

Brown-out Reset down to 45 nA

Watch-dog Timer down to 400 nA

Real-time Clock/Calendar down to 500 nA

and clocking options to ﬁ t any power budget.

of the internal oscillators while an external clock

source stabilizes on start-up. After the external

source has stabilized, the MCU automatically

makes a clock switch, saving precious “up” time.

between external clocks and the internal

oscillators.

www.microchip.com/XLP

APGDT002 Microchip Technology, APGDT002 Datasheet - Page 5

APGDT002

Specifications of APGDT002

Available stocks

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