Difference between revisions of "83Plus:Ports:04"
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== Example == | == Example == | ||
− | This example shows successful use of this port, switching to mode 1 and back. Mode 1 is the only way to execute code beyond address C000h on the 83+ Basic. | + | This example shows successful use of this port, switching to mode 1 and back. Mode 1 is the only way to execute code beyond address C000h on the 83+ Basic. (Assumes code is running from 4000h (i.e. an application)) |
<nowiki> in a, (7) ;Save current Bank B page because we'll trash it. | <nowiki> in a, (7) ;Save current Bank B page because we'll trash it. | ||
push af | push af |
Revision as of 16:06, 15 March 2006
Contents
Synopsis
Port Number: 04h
Function: Interrupting Device Identification and Memory Map Control
This port serves two purposes. When read it indicates the device that triggered an interrupt. When written it sets the memory map mode and hardware timer speed.
Read Values
- Bits 0~2 and 4~7 are set according to which device triggered the running interrupt.
- Bit 0: Set if pressing the ON Key triggered the interrupt.
- Bit 1: Set if the first hardware timer triggered the interrupt.
- Bit 2: Set if the second hardware timer triggered the interrupt.
- Bit 4: Link activity generated an interrupt.
- 83+SE / 84+ only: Bit 5: First crystal timer has expired.
- 83+SE / 84+ only: Bit 6: Second crystal timer has expired.
- 83+SE / 84+ only: Bit 7: Third crystal timer has expired.
- Bit 3 is reset if the ON key is being pressed, set otherwise.
Write Values
- Bit 0 reset to select memory map mode 0. In mode 0 the RAM and ROM is mapped to CPU memory as follows:
- Bit 0 set to select memory map mode 1. In mode 1 the RAM and ROM is mapped to CPU memory as follows:
- Bits 1 and 2 control the hardware timer frequency. Setting both 0 sets the timer to the fastest speed, and both 1 is the slowest speed. The normal speed is with both bits 1.
first timer | second timer | both enabled | ||||
---|---|---|---|---|---|---|
value | 83+ | 83+SE 84+(SE) | 83+ | 83+SE 84+(SE) | 83+ | 83+SE 84+(SE) |
00 | 560 | 512 | 1120 | 1024 | 1680 | 1536 |
01 | 248 | 227 | 497 | 455 | 746 | 682 |
10 | 170 | 156 | 344 | 315 | 517 | 473 |
11 | 118 | 108 | 236 | 216 | 353 | 323 |
- Bits 4~6 should be 1 on the 83+ and 83+SE, and 0 on the 84+ and 84+SE.
Comments
The calculator uses mode 0 for normal operation. If you change the memory map mode be sure to change it back before returning control. Also, do not switch from mode 0 to mode 1 inside the 4000h ~ 7FFFh range, as it will basically crash the calculator because RAM Page 0 will take over that section and RAM Page 0 cannot execute code.
Example
This example shows successful use of this port, switching to mode 1 and back. Mode 1 is the only way to execute code beyond address C000h on the 83+ Basic. (Assumes code is running from 4000h (i.e. an application))
in a, (7) ;Save current Bank B page because we'll trash it. push af in a,(6) ;Put this app's page into 8000 out (7), a jp $ + 4003h ;This will actually jump to the next statement, but in Bank B. ld a, 77h ;Select mode 1 and keep the timer speed at normal... out (4), a ;Now we're in mode 1. ;We're still at 8000h here but we are back in Bank A. ;Now to go back. ld a, 76h ;I could dec a for this example, but... out (4), a ;Back in mode 0 and bank B. jp $ - 3FFDh ;Jump back to bank A. pop af out (7), a ;Restore bank B.