TOOLSTICK560DC Silicon Laboratories Inc, TOOLSTICK560DC Datasheet - Page 148

TOOLSTICK560DC

Manufacturer Part Number

TOOLSTICK560DC

Description

DAUGHTER CARD TOOLSTICK F560

Manufacturer

Silicon Laboratories Inc

Series

ToolStickr

Type

MCUr

Datasheets

1.TOOLSTICK560DC.pdf (302 pages)

2.TOOLSTICK560DC.pdf (16 pages)

Specifications of TOOLSTICK560DC

Contents

Daughter Card

Processor To Be Evaluated

C8051F55x, C8051F56x, C8051F57x

Interface Type

USB

Operating Supply Voltage

2.7 V to 3.6 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

C8051F55x, C8051F56x, C8051F57x

For Use With

336-1345 - TOOLSTICK BASE ADAPTER336-1182 - ADAPTER USB DEBUG FOR C8051FXXX

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1719

Current page: 148 of 302
Download datasheet (3Mb)

C8051F55x/56x/57x

17.5. Memory Mode Selection

The external data memory space can be configured in one of four modes, shown in Figure 17.2, based on

the EMIF Mode bits in the EMI0CF register (SFR Definition 17.2). These modes are summarized below.

More information about the different modes can be found in Section “17.6. Timing” on page 149.

17.5.1. Internal XRAM Only

When bits EMI0CF[3:2] are set to 00, all MOVX instructions will target the internal XRAM space on the

device. Memory accesses to addresses beyond the populated space will wrap on 2 kB boundaries. As an

example, the addresses 0x800 and 0x1000 both evaluate to address 0x0000 in on-chip XRAM space.



17.5.2. Split Mode without Bank Select

When bit EMI0CF.[3:2] are set to 01, the XRAM memory map is split into two areas, on-chip space and off-

chip space.



148

EMI0CF[3:2] = 00

On-Chip XRAM

8-bit MOVX operations use the contents of EMI0CN to determine the high-byte of the effective address

and R0 or R1 to determine the low-byte of the effective address.

16-bit MOVX operations use the contents of the 16-bit DPTR to determine the effective address.

Effective addresses below the internal XRAM size boundary will access on-chip XRAM space.

Effective addresses above the internal XRAM size boundary will access off-chip space.

8-bit MOVX operations use the contents of EMI0CN to determine whether the memory access is on-

chip or off-chip. However, in the “No Bank Select” mode, an 8-bit MOVX operation will not drive the

upper 8-bits A[15:8] of the Address Bus during an off-chip access. This allows the user to manipulate

the upper address bits at will by setting the Port state directly via the port latches. This behavior is in

contrast with “Split Mode with Bank Select” described below. The lower 8-bits of the Address Bus A[7:0]

are driven, determined by R0 or R1.

16-bit MOVX operations use the contents of DPTR to determine whether the memory access is on-chip

or off-chip, and unlike 8-bit MOVX operations, the full 16-bits of the Address Bus A[15:0] are driven

during the off-chip transaction.

0xFFFF

0x0000

EMI0CF[3:2] = 01

(No Bank Select)

On-Chip XRAM

Off-Chip

Memory

Figure 17.2. EMIF Operating Modes

0xFFFF

0x0000

Rev. 1.1

EMI0CF[3:2] = 10

On-Chip XRAM

(Bank Select)

Off-Chip

Memory

0xFFFF

0x0000

EMI0CF[3:2] = 11

Off-Chip

Memory

0xFFFF

0x0000

TOOLSTICK560DC Silicon Laboratories Inc, TOOLSTICK560DC Datasheet - Page 148

TOOLSTICK560DC

Specifications of TOOLSTICK560DC

Related parts for TOOLSTICK560DC