C8051F34A-GMR Silicon Labs, C8051F34A-GMR Datasheet - Page 122

C8051F34A-GMR

Manufacturer Part Number

C8051F34A-GMR

Description

8-bit Microcontrollers - MCU 48 MIPS 64KB 10ADC

Manufacturer

Silicon Labs

Datasheet

1.C8051F349-GMR.pdf (276 pages)

Specifications of C8051F34A-GMR

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

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13.6.3. Split Mode with Bank Select

When EMI0CF.[3:2] are set to ‘10’, the XRAM memory map is split into two areas, on-chip space and

off-chip space.

•

13.6.4. External Only

When EMI0CF[3:2] are set to ‘11’, all MOVX operations are directed to off-chip space. On-chip XRAM is

not visible to the CPU. This mode is useful for accessing off-chip memory located between 0x0000 and the

internal XRAM size boundary.

•

13.7. Timing

The timing parameters of the External Memory Interface can be configured to enable connection to

devices having different setup and hold time requirements. The Address Setup time, Address Hold time,

RD and WR strobe widths, and in multiplexed mode, the width of the ALE pulse are all programmable in

units of SYSCLK periods through EMI0TC, shown in SFR Definition 13.3, and EMI0CF[1:0].

The timing for an off-chip MOVX instruction can be calculated by adding 4 SYSCLK cycles to the timing

parameters defined by the EMI0TC register. Assuming non-multiplexed operation, the minimum execution

time for an off-chip XRAM operation is 5 SYSCLK cycles (1 SYSCLK for RD or WR pulse + 4 SYSCLKs).

For multiplexed operations, the Address Latch Enable signal will require a minimum of 2 additional SYS-

CLK cycles. Therefore, the minimum execution time for an off-chip XRAM operation in multiplexed mode is

7 SYSCLK cycles (2 for ALE + 1 for RD or WR + 4). The programmable setup and hold times default to the

maximum delay settings after a reset. Table 13.1 lists the AC parameters for the External Memory Inter-

face, and Figure 13.5 through Figure 13.10 show the timing diagrams for the different External Memory

Interface modes and MOVX operations.

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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. The upper 8-bits of the Address Bus A[15:8] are determined by EMI0CN, and the

lower 8-bits of the Address Bus A[7:0] are determined by R0 or R1. All 16-bits of the Address Bus

A[15:0] are driven in “Bank Select” mode.

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

on-chip or off-chip, and the full 16-bits of the Address Bus A[15:0] are driven during the off-chip trans-

action.

8-bit MOVX operations ignore the contents of EMI0CN. The upper Address bits A[15:8] are not driven

(identical behavior to an off-chip access in “Split Mode without Bank Select” described above). This

allows the user to manipulate the upper address bits at will by setting the Port state directly. The lower

8-bits of the effective address A[7:0] are determined by the contents of R0 or R1.

16-bit MOVX operations use the contents of DPTR to determine the effective address A[15:0]. The full

16-bits of the Address Bus A[15:0] are driven during the off-chip transaction.

Rev. 1.3

C8051F34A-GMR Silicon Labs, C8051F34A-GMR Datasheet - Page 122

C8051F34A-GMR

Specifications of C8051F34A-GMR

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