SPC5607BECLLR View Datasheet(PDF) - Freescale Semiconductor

Part Name

Description

MFG CO.

SPC5607BECLLR

MPC5607B Microcontroller Data Sheet

Freescale Semiconductor 

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Electrical characteristics

3.11.3.1 Electrostatic discharge (ESD)

Electrostatic discharges (a positive then a negative pulse separated by 1 second) are applied to the pins of each sample according

to each pin combination. The sample size depends on the number of supply pins in the device (3 parts×(n+1) supply pin). This

test conforms to the AEC-Q100-002/-003/-011 standard.

Table 28. ESD absolute maximum ratings1,2

Symbol

Ratings

Conditions

Class

Max value3 Unit

VESD(HBM) Electrostatic discharge voltage TA = 25 °C

(Human Body Model)

conforming to AEC-Q100-002

H1C

2000

V

VESD(MM) Electrostatic discharge voltage TA = 25 °C

M2

200

(Machine Model)

conforming to AEC-Q100-003

VESD(CDM) Electrostatic discharge voltage TA = 25 °C

(Charged Device Model)

conforming to AEC-Q100-011

C3A

500

750 (corners)

1 All ESD testing is in conformity with CDF-AEC-Q100 Stress Test Qualification for Automotive Grade Integrated

Circuits.

2 A device will be defined as a failure if after exposure to ESD pulses the device no longer meets the device

specification requirements. Complete DC parametric and functional testing shall be performed per applicable

device specification at room temperature followed by hot temperature, unless specified otherwise in the device

specification.

3 Data based on characterization results, not tested in production

3.11.3.2 Static latch-up (LU)

Two complementary static tests are required on six parts to assess the latch-up performance:

• A supply overvoltage is applied to each power supply pin.

• A current injection is applied to each input, output and configurable I/O pin.

These tests are compliant with the EIA/JESD 78 IC latch-up standard.

Table 29. Latch-up results

Symbol

LU

Parameter

Static latch-up class

Conditions

TA = 125 °C

conforming to JESD 78

Class

II level A

3.12 Fast external crystal oscillator (4 to 16 MHz) electrical

characteristics

The device provides an oscillator/resonator driver. Figure describes a simple model of the internal oscillator driver and provides

an example of a connection for an oscillator or a resonator.

Table 30 provides the parameter description of 4 MHz to 16 MHz crystals used for the design simulations.

MPC5607B Microcontroller Data Sheet, Rev. 3

42

Freescale Semiconductor

Preliminary—Subject to Change Without Notice

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