PIC18F47J53 Datasheet, PDF(317/586 Page) Microchip Technology – 28/44-Pin, High-Performance USB Microcontrollers with nanoWatt XLP Technology

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PIC18F47J53 Datasheet, PDF (317/586 Pages) Microchip Technology – 28/44-Pin, High-Performance USB Microcontrollers with nanoWatt XLP Technology

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20.5.3.4 7-Bit Address Masking Mode

Unlike 5-Bit Address Masking mode, 7-Bit Address

Masking mode uses a mask of up to eight bits (in 10-bit

addressing) to define a range of addresses than can be

Acknowledged, using the lowest bits of the incoming

address. This allows the module to Acknowledge up to

127 different addresses with 7-bit addressing, or

255 with 10-bit addressing (see Example 20-4). This

mode is the default configuration of the module and is

selected when MSSPMSK is unprogrammed (â1â).

The address mask for 7-Bit Address Masking mode is

stored in the SSPxMSK register, instead of the

SSPxCON2 register. SSPxMSK is a separate, hard-

ware register within the module, but it is not directly

addressable. Instead, it shares an address in the SFR

space with the SSPxADD register. To access the

SSPxMSK register, it is necessary to select MSSP

mode, â1001â (SSPCON1<3:0> = 1001), and then read

or write to the location of SSPxADD.

To use 7-Bit Address Masking mode, it is necessary to

initialize SSPxMSK with a value before selecting the

I2C Slave Addressing mode. Thus, the required

sequence of events is:

1. Select SSPxMSK Access mode

(SSPxCON2<3:0> = 1001).

2. Write the mask value to the appropriate

SSPxADD register address (FC8h for MSSP1,

F6Eh for MSSP2).

3. Set the appropriate I2C Slave mode

(SSPxCON2<3:0> = 0111 for 10-bit addressing,

0110 for 7-bit addressing).

Setting or clearing mask bits in SSPxMSK behaves in

the opposite manner of the ADMSK bits in 5-Bit

Address Masking mode. That is, clearing a bit in

SSPxMSK causes the corresponding address bit to be

masked; setting the bit requires a match in that

position. SSPxMSK resets to all â1âs upon any Reset

condition, and therefore, has no effect on the standard

MSSP operation until written with a mask value.

With 7-Bit Address Masking mode, the

SSPxMSK<7:1> bits mask the corresponding address

bits in the SSPxADD register. For any SSPxMSK bits

that are active (SSPxMSK<n> = 0), the corresponding

SSPxADD address bit is ignored (SSPxADD<n> = x).

For the module to issue an address Acknowledge, it is

sufficient to match only on addresses that do not have

an active address mask.

With 10-Bit Address Masking mode, SSPxMSK<7:0>

bits mask the corresponding address bits in the

SSPxADD register. For any SSPxMSK bits that are

active (= 0), the corresponding SSPxADD address bit

is ignored (SSPxADD<n> = x).

Note: The two MSbs of the address are not

affected by address masking.

EXAMPLE 20-4: ADDRESS MASKING EXAMPLES IN 7-BIT MASKING MODE

7-Bit Addressing:

SSPxADD<7:1>= 1010 000

SSPxMSK<7:1>= 1111 001

Addresses Acknowledged = A8h, A6h, A4h, A0h

10-Bit Addressing:

SSPxADD<7:0> = 1010 0000 (the two MSbs are ignored in this example since they are not affected)

SSPxMSK<5:1> = 1111 0

Addresses Acknowledged = A8h, A6h, A4h, A0h

ï£ 2010 Microchip Technology Inc.

Preliminary

DS39964B-page 317

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