MCP795W22T-I/SL View Datasheet(PDF) - Microchip Technology

Part Name

Description

Manufacturer

MCP795W22T-I/SL

2Kb EE 64B SRAM WD TED ID

Microchip Technology 

MCP795W1X/MCP795W2X

The debounce will only operate if the clock is running

and these timings are based on the uncalibrated

32.768 kHz clock.

• EVHS<1:0> – These bits determine how many

high-speed events must occur before the EVHIF

bit is set. All of these events must occur within

250 ms.

- 00 – 1st Event

- 01 – 4th Event

- 10 – 16th Event

- 11 – 32nd Event

9.1.5

VBAT SWITCHOVER

If the VBAT feature is not used, the VBAT pin should be

connected to GND. A low value series resistor and

Schottky diode are recommended between the

external battery and the VBAT pin to reduce inrush

current and also to prevent any leakage current

reaching the external VBAT source.

The VTRIP point is defined as 1.5V typical. When VDD

falls below 1.5V the system will continue to operate

the RTCC and SRAM using the VBAT supply. There is

~50mV hyst in the trip point changeover. The following

conditions apply:

TABLE 9-1:

VBAT CHANGOVER

CONDITIONS

Supply

Condition

Read/Write

Access

VCC < VTRIP, VCC < VBAT

No

VCC > VTRIP, VCC < VBAT

Yes

VCC > VTRIP, VCC > VBAT

Yes

Powered

By

VBAT

VCC

VCC

For more information on VBAT conditions see the RTCC

Best Practices Application Note, AN1365 (DS01365).

9.1.6 UNIQUE ID LOCATIONS

When the unique ID locations are preprogrammed from

the factory with either an EUI-48 or EUI-64, the EUI

code is programmed into location 0x00-0x07.

Locations 0x08-0x0F are blank (0xFF).

Note:

For EUI-64, the data is located in address

0x00-0x07. For EUI-48 locations, 0x02-

0x07 contain the data. 0x00/01 contain

0xFF.

To read the unique ID location the IDREAD command

is given with the starting address. Valid addresses are

0x00 through 0x0F. All 16 bytes can be read out in a

single command by clocking the device. Trying to

access locations past 0x0F will result in the address

wrapping within these 16 bytes.

FIGURE 9-2:

IDREAD COMMAND SEQUENCE

CS

SCK

SI

SO

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

Instruction

0 0 1 1 0 0 1 10

Address Byte

0 00 32

10

Don’t Care

High-Impedance

Data Out

76543210

Address range is 0x00-0x0F, address counter will wrap within this range.

To write to the unique ID locations, the IDWRITE

command is used. The device must be write enabled

and the correct unlock sequence must have been

performed. See Section 10.1.4, Write to the Unlock

Register for more details.

The ID locations can be written to using the IDWRITE

command. The valid address is between 0x00 and

0x0F. The entire 16 bytes must be written in two

groups of eight bytes. A maximum of eight bytes can

be written at once.

 2011-2012 Microchip Technology Inc.

Preliminary

DS22280C-page 31

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