SC2200UFH-300 AMD (ADVANCED MICRO DEVICES), SC2200UFH-300 Datasheet - Page 128

SC2200UFH-300

Manufacturer Part Number

SC2200UFH-300

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.SC2200UFH-300.pdf (429 pages)

Specifications of SC2200UFH-300

Operating Temperature (min)

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Not Compliant

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134

Offset 04h

Offset 05h

This register enables/disables the functional block and determines the ACB clock rate.

Bit

6:0

7:1

Description

INTEN (Interrupt Enable).

0: ACB interrupt disabled.

1: ACB interrupt enabled. An interrupt is generated in response to one of the following events:

STOP (Stop).

0: Automatically cleared after Stop issued.

1: Setting this bit in master mode generates a Stop Condition to complete or abort current message transfer.

START (Start). Set this bit only when in master mode or when requesting master mode.

0: Cleared after Start Condition sent or Bus Error (ACBST[5] = 1) detected.

1: Single or repeated Start Condition generated on the ACCESS.bus. If the device is not the active master of the bus

SAEN (Slave Address Enable).

0: ACB does not check for an address match with ACBADDR[6:0].

1: ACBADDR[6:0] holds a valid address and enables the match of ADDR to an incoming address byte.

ADDR (Address). These bits hold the 7-bit device address of the SC2200. When in slave mode, the first 7 bits received

after a Start Condition are compared with this field (first bit received is compared with bit 6, and the last bit with bit 0). If the

address field matches the received data and ACBADDR[7] is 1, a match is declared.

ABCFRQ (ABC Frequency). This field defines the ABC period (low and high time) when the device serves as a bus mas-

ter. The clock low and high times are defined as follows:

tABCl = tABCh = 2*ABCFRQ*tCLK

where tCLK is the module input clock cycle, as defined in the Section 5.2 "Module Architecture" on page 97.

ABCFRQ can be programmed to values in the range of 0001000b through 1111111b. Using any other value has unpredict-

able results.

EN (Enable).

0: ACB is disabled, ACBCTL1, ACBST and ACBCST registers are cleared, and clocks are halted.

1: ACB is enabled.

-Detection of an address match (ACBST[2] = 1) and ACBCTL1[6] = 1.

-Receipt of Bus Error (ACBST[5] = 1).

-Receipt of Negative Acknowledge after sending a byte (ACBST[4] = 1).

-Acknowledge of each transaction (same as the hardware set of the ACBST[6]).

-In master mode if ACBCTL1[7] = 1, after a successful start (ACBST[3] = 1).

-Detection of a Stop Condition while in slave mode (ACBST[7] = 1).

(ACBST[1] = 0), setting START generates a Start Condition when the ACCESS.bus becomes free (ACBCST[1] = 0). An

address transmission sequence should then be performed.

If the device is the active master of the bus (ACBST[1] = 1), setting START and then writing to ACBSDA generates a

Start Condition. If a transmission is already in progress, a repeated Start Condition is generated. This condition can be

used to switch the direction of the data flow between the master and the slave, or to choose another slave device without

separating them with a Stop Condition.

32580B

ACB Own Address Register - ACBADDR (R/W)

Table 5-32. ACB Registers (Continued)

ACB Control Register 2 - ACBCTL2 (R/W)

AMD Geode™ SC2200 Processor Data Book

Reset Value: xxh

Reset Value: 00h

SuperI/O Module

SC2200UFH-300 AMD (ADVANCED MICRO DEVICES), SC2200UFH-300 Datasheet - Page 128

SC2200UFH-300

Specifications of SC2200UFH-300

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