MMA7456LT Freescale Semiconductor, MMA7456LT Datasheet - Page 15

Board Mount Accelerometers 3-AXIS DIGTL 12C&SP1

MMA7456LT

Manufacturer Part Number

MMA7456LT

Description

Board Mount Accelerometers 3-AXIS DIGTL 12C&SP1

Manufacturer

Freescale Semiconductor

Series

-r

Datasheet

1.MMA7456LR1.pdf (35 pages)

Specifications of MMA7456LT

Sensing Axis

X, Y, Z

Acceleration

2 g, 4 g, 8 g

Sensitivity

64 count/g, 32 count/g, 16 count/g

Package / Case

LGA-14

Output Type

Digital

Supply Voltage (max)

3.6 V

Supply Voltage (min)

2.4 V

Supply Current

400 uA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Axis

X, Y, Z

Acceleration Range

± 2g, 4g, 8g

Voltage - Supply

2.4 V ~ 3.6 V

Bandwidth

6kHz - XY, 3.4kHz - Z

Interface

I²C, SPI

Mounting Type

Surface Mount

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MMA7456LT

Manufacturer:

FREESCALE

Quantity:

20 000

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ASSIGNING, CLEARING & DETECTING INTERRUPTS

Assigning the interrupt pins is done in Register $18. There are 3 combinations for the interrupt pins to be assigned which are

outlined below in the table for INTREG[1:0].

Table 7. Configuring the Interrupt settings using Register $18 with INTREG[1:0] bits

00: INT1 Register is detecting Level while INT2 is detecting Pulse.

01: INT1 Register is detecting Pulse while INT2 is detecting Level.

10: INT1 Register is detecting a Single Pulse and INT2 is detecting Single Pulse (if 2

time window and second time window > 0 then INT2 will detect the double pulse only.

INTPIN: INT1 pin is routed to INT1 bit in Detection Source Register ($0A) and INT2 pin is routed to INT2 bit in Detection Source

INTPIN: INT2 pin is routed to INT1 bit in Detection Source Register ($0A) and INT1 pin is routed to INT2 bit in Detection Source

Note: When INTREG[1:0] =10 for the condition to detect single pulse on INT1 and either single or double pulse on INT2, INT1

register bit can no longer be cleared by setting CLR_INT1 bit. It is cleared by setting CLR_INT2 bit. In this case, setting CLR_INT2

clears both INT1 and INT2 register bits and resets the detection operation. Follow the example given for clearing the interrupts.

Clearing the Interrupt Pins: Register $17

CLR_INT1

1: Clear “INT1”

0: Do not clear “INT1”

After interrupt has triggered due to a detection, the interrupt pin (INT1 or INT2) need to be cleared by writing a logic 1. Then the

interrupt pin should be enabled to trigger the next detection by setting it to a logic 0.

This example is to show how to reset the interrupt flags

void ClearIntLatch(void)

{

IIC_ByteWrite(INTRST, 0x03);

IIC_ByteWrite(INTRST, 0x00);

}

$18 Control 1 Register

$17: Interrupt Latch Reset (Read/Write)

Sensors

Freescale Semiconductor

DFBW

INTREG[1:0]

THOPT

ZDA

Single Pulse detection

“INT1” Register Bit

Pulse Detection

Level detection

YDA

XDA

CLR_INT2

1: Clear “INT2”

0: Do not clear “INT2”

INTREG[1]

INTREG[0]

Time Window = 0) or if there is a latency

CLR_INT2

Single or Double Pulse Detection

“INT2” Register Bit

Pulse Detection

Level Detection

CLR_INT1

INTPIN

MMA7456L

Function

Reg $18

Reg $17

Default

MMA7456LT Freescale Semiconductor, MMA7456LT Datasheet - Page 15

MMA7456LT

Specifications of MMA7456LT

Available stocks

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