Memory-mapped I/O ports: Difference between revisions

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==8FFF0000 - Unknown==
This page was split:


==90000000 - General Purpose I/O (GPIO)==
[[Memory-mapped I/O ports on Classic]]


The GPIO registers are separated into 4 sections:
[[Memory-mapped I/O ports on CX]]


* Section 0: 90000000-9000003F
[[Memory-mapped I/O ports on CX II]]
* Section 1: 90000040-9000007F
* Section 2: 90000080-900000BF
* Section 3: 900000C0-900000FF.
 
Each register is a word, and only bits 0-7 of each are used. There can be up to 32 devices accessed by this setup, each known as a GPIO. Each GPIO is defined by one of the 8 bits in one of the sections. The number of the GPIO is the section number times 8 plus the bit number. Each GPIO has a status bit and can cause interrupts.
 
The following addresses are offsets from the beginning of the GPIO section:
 
* +00 (R): Masked interrupt status ([+04] & [+08])
* +04 (R): Reads raw interrupt status (directly dependent on the GPIO status) or sticky interrupt status (becomes set when GPIO status changes) depending on bit in [+20]
* +04 (W): Write 1 to the bit to reset the sticky interrupt status.
* +08 (R): Reads current interrupt mask bit.
* +08 (W): Write 1 to the bit to enable interrupt (set mask bit to 1)
* +0C (W): Write 1 to the bit to disable interrupt (set mask bit to 0)
 
The following addresses should be changed with a read-modify-write pattern so as to not disturb other bits in the register.
 
* +10 (R/W): Setting bit to 0 will not allow GPIO status bit to change from its default (?)
* +14 (R/W): (?)
* +18 (R): Reads GPIO status bit.
* +1C (R/W): Setting bit to 1 will invert raw interrupt status (?)
* +20 (R/W): Setting bit to 1 will use sticky interrupt status in [+04], or setting to 0 will use raw interrupt status.
* +24 (R/W): (?)
 
Currently known GPIOs:
 
* GPIO 8 (Section 1, bit 0): Status bit is 0 if Reset Button is pressed.
* GPIO 24 (Section 3, bit 0): Status bit is 1 if a keypad is not plugged in. (TI-Nspire non-cas only?)
 
==90010000 - Fast timer==
 
The same interface as 900C0000/900D0000, but runs at the speed of the APB clock (22.5MHz) rather than 32kHz. See [[#900D0000 - Second timer Second timer]] for more info.
 
==90020000 - Serial UART==
 
Used to communicate with the [[Hardware#RS232|RS232 serial port]]. The register interface is like that of 16550 UART used in PCs:
 
* 90020000 (R): Receiver Buffer Register
* 90020000 (W): Transmitter Holding Register
* 90020004 (R/W): Interrupt Enable Register
* 90020008 (R): Interrupt Identification Register
* 90020008 (W): FIFO Control Register
* 9002000C (R/W): Line Control Register
* 90020010 (R/W): Modem Control Register
* 90020014 (R): Line Status Register
* 90020018 (R): Modem Status Register
* 9002001C (R/W): Scratch Register
 
==90060000 - Watchdog timer==
 
Possibly an [http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0270b/index.html ARM SP805] or compatible.
 
==90080000 - Unknown==
 
==90090000 - Real-Time Clock (RTC)==
 
Might be an [http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0224b/index.html ARM PrimeCell PL031].
 
* 90090000 (R): Current time in seconds
* 90090004 (W): ?
* 90090008 (R/W): Sets the value of 90090000 (clock will not read new time until a couple seconds later). Reads last value written.
* 9009000C (W): ?
* 90090010 (W): ?
* 90090014 (R): ?
 
==900A0000 - Miscellaneous==
 
* 900A0000 (R): ?
* 900A0004 (R/W): Set bit 0x20 to enable TI-84+ keypad link port. Other bits likely control functions of peripherals as well.
* 900A0008 (W): Write a 2 to reset the CPU
* 900A0010 (R/W): Fast timer interrupt status/acknowledge (6-bit). Write "1" bits to reset the corresponding interrupt requests.
* 900A0014 (R/W): Fast timer interrupt mask (6-bit). Set bits to 1 if the corresponding bits in [900A0010] should trigger an IRQ.
* 900A0018 (R/W): Timer 1 interrupt status/acknowledge (6-bit). Write "1" bits to reset the corresponding interrupt requests.
* 900A001C (R/W): Timer 1 interrupt mask (6-bit). Set bits to 1 if the corresponding bits in [900A0018] should trigger an IRQ.
* 900A0020 (R/W): Timer 2 interrupt status/acknowledge (6-bit). Write "1" bits to reset the corresponding interrupt requests.
* 900A0024 (R/W): Timer 2 interrupt mask (6-bit). Set bits to 1 if the corresponding bits in [900A0020] should trigger an IRQ.
* 900A0028-900A002C (R): These registers together give a 64-bit number which comprises 56 data bits and 8 parity checking bits, allowing any single-bit error in it to be detected and corrected.
** Parity bit 0: Check of all data bits
** Parity bits 1, 2, 4, 8, 16, and 32: Checks of the data bits whose positions, expressed in binary, have that respective bit set.
** Data bits 3, 5-7, 9-15, 17-31, and 33-55: Middle part of the calculator's Product ID
** Data bits 56-57: Unknown
** Data bits 58-62: "ASIC user flags"; must match the 80E0 field in an OS image. 01 = CAS, 00 = non-CAS.
** Parity bit 63: Check of parity bits 1, 2, 4, 8, 16, and 32.
 
==900B0000 - Power management==
 
* 900B0000 (R/W): Clock speed load value
** Bits 1-7: Multiply by 2 to get base/CPU ratio
** Bit 8: If set, base clock is 27 MHz, else see bits 16-20
** Bits 12-14: Add 1 to get CPU/AHB ratio
** Bits 16-20: If bit 8 is clear, base clock is (300 - 6*this) MHz
* 900B0004 (W): ?
* 900B0008 (R/W): ?
* 900B000C (R/W): Clock speed control (write 4 to set the clock speed according to the value in 900B0000)
* 900B0010 (R/W): ON interrupt mask (1-bit). 1 if ON interrupt should be serviced or 0 if not.
* 900B0014 (R/W): Bit 0 is set if ON interrupt is requested. Bit 1 also causes an interrupt, but the cause is unknown (and it is not masked by [900B0010]). Write "1" bits to reset the requests.
* 900B0018 (R/W): ?
* 900B0020 (R/W): ?
* 900B0024 (R): Reads current clock speed value (see 900B0000 for details)
* 900B0028 (R): Bit 4 (0x10) clear when ON key pressed
 
==900C0000 - First timer==
 
Configured as ~488 Hz timer by the OS. Same port structure as [[#900D0000 - Second timer Second timer]].
 
==900D0000 - Second timer==
 
Two timers are located here, but only the first can generate IRQs. IRQ status/mask is located at [900A0020]. Configured as a ~100 Hz timer by the OS.
 
* 900D0000 (R/W): Current IRQ timer value (16-bit). Set to 32 by the OS. Increases/decreases each [900D0004] ticks. The value written to this port is saved internally and can be reloaded automatically upon timer completion, depending on settings in [900D0008].
* 900D0004 (R/W): IRQ timer divider (16-bit). Ticks per count - 1. Set to 9 by the OS. Ticks are approximately 32 kHz.
* 900D0008 (R/W): IRQ timer control (5-bit).
** Bit 4: Set to 1 to freeze timer.
** Bit 3: Set to 1 for increasing timer, or to 0 for decreasing timer.
** Bits 2-0: If 0, timer will count to zero and stop. If 1-6, timer will complete when it reaches the corresponding timer completion value and then reload with original timer value (see [900D0018] to [900D002C]). If 7, timer will never complete and runs infinitely.
* 900D000C (R/W): Current timer value (16-bit). Increases/decreases each [900D0010] ticks. The value written to this port is saved internally and can be reloaded automatically upon timer completion, depending on settings in [900D0014].
* 900D0010 (R/W): Timer divider (16-bit). Ticks per count - 1. Ticks are approximately 32 kHz.
* 900D0014 (R/W): Timer control (5-bit).
** Bit 4: Set to 1 to freeze timer, or 0 to run timer.
** Bit 3: Set to 1 for increasing timer, or to 0 for decreasing timer.
** Bits 2-0: If 0, timer will count to zero and stop. If 1-6, timer will complete when it reaches the corresponding timer completion value (see [900D0018] to [900D002C]). If 7, timer will not complete and runs infinitely.
* 900D0018 (R/W): Timer completion value 1 (16-bit). If IRQ timer equals this value, bit 0 of the interrupt status becomes set.
* 900D001C (R/W): Timer completion value 2 (16-bit). If IRQ timer equals this value, bit 1 of the interrupt status becomes set.
* 900D0020 (R/W): Timer completion value 3 (16-bit). If IRQ timer equals this value, bit 2 of the interrupt status becomes set.
* 900D0024 (R/W): Timer completion value 4 (16-bit). If IRQ timer equals this value, bit 3 of the interrupt status becomes set.
* 900D0028 (R/W): Timer completion value 5 (16-bit). If IRQ timer equals this value, bit 4 of the interrupt status becomes set.
* 900D002C (R/W): Timer completion value 6 (16-bit). If IRQ timer equals this value, bit 5 of the interrupt status becomes set.
* 900D0030 (R/W): Unknown 6-bit value.
 
==900E0000 - Keypad==
 
* 900E0008 (R/W): Keypad interrupt status/acknowledge (2-bit). Bit 1 is set when a key is pressed or released, and bit 0 has an unknown cause.. Write "1" bits to acknowledge.
* 900E000C (R/W): Keypad interrupt mask (2-bit). Set each bit to 1 if the corresponding event in [900E0008] should cause an interrupt.
* 900E0010-900E001F (R, halfword): Keypad map (see below)
* 900E0044 (R/W): Unknown.
 
===900E0010-900E001F - Keypad map===
 
Each bit represents a key. If bit is cleared, the key is being pressed. Only bits 0 to 10 are used in each halfword. The mapping depends on the currently used keypad (TI-Nspire or TI-84+).
 
'''TI-Nspire keypad map:'''
 
{|border="1" cellspacing="0" cellpadding="5"
|-
! offset
! bit 0
! bit 1
! bit 2
! bit 3
! bit 4
! bit 5
! bit 6
! bit 7
! bit 8
! bit 9
! bit 10
|-
| 0012
| ,
| +
| W
| 3
| V
| 2
| U
| 1
| T
| e^x
| pi
|-
| 0014
| ?
| -
| S
| 6
| R
| 5
| Q
| 4
| P
| 10^x
| EE
|-
| 0016
| :
| *
| O
| 9
| N
| 8
| M
| 7
| L
| x^2
| i
|-
| 0018
| "
| /
| K
| tan
| J
| cos
| I
| sin
| H
| ^
| >
|-
| 001A
| '
| cat
| G
| )
| F
| (
| E
| var
| D
| caps
| <
|-
| 001C
| flag
| click
| C
| home
| B
| menu
| A
| esc
| |
| tab
| ---
|-
| 001E
| up
| u+r
| right
| r+d
| down
| d+l
| left
| l+u
| clear
| ctrl
| =
|}
 
<br />'''TI-84+ keypad map:'''
 
{|border="1" cellspacing="0" cellpadding="5"
|-
! offset
! bit 0
! bit 1
! bit 2
! bit 3
! bit 4
! bit 5
! bit 6
! bit 7
! bit 8
! bit 9
! bit 10
|-
| 0010
| down
| left
| right
| up
| ---
| ---
| ---
| ---
| ---
| ---
| ---
|-
| 0012
| enter
| +
| -
| *
| /
| ^
| clear
| ---
| ---
| ---
| ---
|-
| 0014
| (-)
| 3
| 6
| 9
| )
| tan
| vars
| ---
| ---
| ---
| ---
|-
| 0016
| .
| 2
| 5
| 8
| (
| cos
| prgm
| stat
| ---
| ---
| ---
|-
| 0018
| 0
| 1
| 4
| 7
| ,
| sin
| apps
| X
| ---
| ---
| ---
|-
| 001A
| ---
| sto
| ln
| log
| x^2
| x^-1
| math
| alpha
| ---
| ---
| ---
|-
| 001C
| graph
| trace
| zoom
| wind
| y=
| 2nd
| mode
| del
| ---
| ---
| ---
|-
| 001E
| ---
| ---
| ---
| ---
| ---
| ---
| ---
| ---
| ---
| ---
| ---
|}
 
==900F0000 - Unknown==
 
* 900F0020 (R/W): LCD contrast. Valid values range from 0x6B to 0x95; normal value is 0x80
 
==90100000 - TI-84 Plus link port==
 
* 90100000 (W): Write to bits 0-1 to hold I/O link lines low or let them go high. 1=high, 0=low.
* 90100000 (R): Bits 0-1 hold the status of the I/O link lines. 1=high, 0=low. Bits 4-5 hold the last value outputted to bits 0-1.
* 90100004 (R/W): Unknown. The OS writes 0x80 here during initialization.
* 90100008 (R): Unknown. Bit 0x40 is set if any link lines are low.
 
==90110000 - LED==
 
* 90110B00 (R/W): Control register
** Bit 0: Set this bit to enable green light blink data. If green blink data iteration is not on, the green light state is read from bit 0 of green blink data.
** Bit 1: Set this bit and bit 6 to enable green blink data iteration.
** Bit 2: Set this bit to force green light off. Overrides bit 4.
** Bit 3: Set this bit to force red light off. Overrides bits 5 and 13.
** Bit 4: Set this bit to force green light on.
** Bit 5: Set this bit to force red light on.
** Bit 6: See this bit and bit 1 to enable green blink data iteration. Reset before modifying green blink data or delay.
** Bit 9: Set this bit to enable red light blink data. If red blink data iteration is not on, the red light state is read from bit 0 of red blink data.
** Bit 10: Set this bit and bit 12 to enable red blink data iteration.
** Bit 12: Set this bit and bit 10 to enable red blink data iteration. Reset before modifying red blink data or delay.
** Bit 13: Forces red light on if bit 4 is 0, or red light off if bit 4 is 1. (?)
* 90110B04 (R/W): Green blink data. 32 bits of on and off state, represented by 1 and 0. Iteration is done from bit 31 to bit 0 repeatedly.
* 90110B08 (R/W): Green blink delay (negative). OS sets this to -2048.
* 90110B0C (R/W): Red blink data. 32 bits of on and off state, represented by 1 and 0. Iteration is done from bit 31 to bit 0 repeatedly.
* 90110B10 (R/W): Red blink delay (negative). OS sets this to -2048.
 
Note: If red and green lights are on at the same time, the color becomes yellow.
 
==A4000100-A40096FF - Screen==
 
Read-write, byte, half-word, word
 
Screen buffer. The upper left corner is the first byte. Each grayscaled pixel is 4-bit long. 1111 is white, 0000 is black.
 
==A9000000 - "SPI"==
 
==AC000000 - SD Host Controller==
 
See http://www.sdcard.org/developers/tech/host_controller/simple_spec/
 
==B0000000 - USB OTG controller==
 
Appears similar to the USB interface on Freescale Semiconductor's microcontrollers.
 
* Module identification registers
** B0000000 (R): ID - Identification register
** B0000004 (R): HWGENERAL - General hardware parameters
** B0000008 (R): HWHOST - Host hardware parameters
** B000000C (R): HWDEVICE - Device hardware parameters
** B0000010 (R): HWTXBUF - TX buffer hardware parameters
** B0000014 (R): HWRXBUF - RX buffer hardware parameters
* Capability registers
** B0000100 (R): CAPLENGTH - Capability registers length
** B0000102 (R): HCIVERSION - Host controller interface version
** B0000104 (R): HCSPARAMS - Host controller structural parameters
** B0000108 (R): HCCPARAMS - Host controller capability parameters
** B0000120 (R): DCIVERSION - Device controller interface version
** B0000124 (R): DCCPARAMS - Device controller capability parameters
* Operational registers
** B0000140 (R/W): USBCMD - USB command
** B0000144 (R/W): USBSTS - USB status
** B0000148 (R/W): USBINTR - USB interrupt enable
** B000014C (R/W): FRINDEX - USB frame index
** B0000150 (R): CTRLDSSEGMENT - 4G segment selector (always 0?)
** B0000154 (R/W): PERIODICLISTBASE - Frame list base address
** B0000158 (R/W): ASYNCLISTADDR - Next asynchronous list address
** B000015C (R/W): TTCTRL - TT status and control
** B0000160 (R/W): BURSTSIZE - Programmable DMA burst size
** B0000164 (R/W): TXFILLTUNING - Host TT Xmit pre-buffer packet tuning
** B0000180 (R): CONFIGFLAG - Configured flag register (always 1?)
** B0000184 (R/W): PORTSC - Port status and control
** B00001A4 (R/W): OTGSC - On-The-Go status and control
** B00001A8 (R/W): USBMODE - USB device mode
** B00001AC (R/W): ENDPOINTSETUPSTAT - Endpoint setup status
** B00001B0 (R/W): ENDPTPRIME - Endpoint initialization
** B00001B4 (R/W): ENDPTFLUSH - Endpoint de-initialize
** B00001B8 (R): ENDPTSTATUS - Endpoint status
** B00001BC (R/W): ENDPTCOMPLETE - Endpoint complete
** B00001C0 (R/W): ENDPTCTRL0 - Endpoint control 0
** B00001C4 (R/W): ENDPTCTRL1 - Endpoint control 1
** B00001C8 (R/W): ENDPTCTRL2 - Endpoint control 2
** B00001CC (R/W): ENDPTCTRL3 - Endpoint control 3
 
==B4000000 - USB HOST controller==
 
==B8000000 - NAND Flash==
 
==BC000000 - Unknown==
 
==C0000000 - LCD controller==
 
Probably an [http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/index.html ARM PrimeCell PL110] or something compatible.
 
* C0000010 (R/W): Frame Base Address. Holds the address to read pixel data from. Set to A4000100 by the OS.
* C0000018 (R/W): Interrupt mask.
* C000001C (R/W): LCD Control
** Bit 0: LCD controller enable.
** Bits 1-3: LCD bits per pixel.
*** 000 = 1 bpp
*** 001 = 2 bpp
*** 010 = 4 bpp (default setting of OS)
*** 011 = 8 bpp
*** 100 = 16 bpp (holds the literal 16-bit palette value instead of a palette index)
*** 101 = 24 bpp (not applicable to TI-Nspire's STN LCD)
*** 110,111 = reserved
** Bit 4: Set to 1 if STN LCD is monochrome, or 0 if color. Should be set to 1 on TI-Nspire.
** Bit 5: Set to 1 if LCD is TFT, or 0 if STN. Should be set to 0 on TI-Nspire.
** Bit 6: Set to 1 if monochrome STN LCD has a 8-bit interface, or 0 if 4-bit. Should be set to 1 on TI-Nspire.
** Bit 7: Set to 1 if LCD is dual panel STN, or 0 if single-panel. Should be set to 0 on TI-Nspire.
** Bit 8: Set to 1 if the palettes are read as BGR, or 0 if RGB. Since monochrome displays use only the R color, it is possible to store a secondary palette in the B color and switch instantly by flipping this bit.
** Bit 9: Set to 1 if the bytes in each word are to be read as big-endian, or 0 if little-endian. Set to 0 by the OS.
** Bit 10: Set to 1 if the pixels within each byte are to be read as big-endian, or 0 if little-endian. Only affects 1,2,4 bpp modes. Set to 1 by the OS.
** Bit 11: LCD power enable.
** Bits 12-13: Vertical compare interrupt region.
*** 00 = start of vertical synchronization
*** 01 = start of back porch
*** 10 = start of active video
*** 11 = start of front porch
** Bits 14-15: Reserved.
** Bit 16: LCD DMA FIFO Watermark Level.
** Bits 17-31: Reserved.
* C0000020 (R): Raw interrupt status.
** Bit 1: FIFO Underflow
** Bit 2: LCD next address base update. Signifies that a new Frame Base Address value can be loaded for double-buffering.
** Bit 3: Vertical compare. Set when one of four vertical regions (specified by the LCD Control register) is reached.
** Bit 4: AHB Master bus error.
* C0000024 (R): Masked interrupt status.
* C0000028 (W): Interrupt clear. Write a 1 to each bit to clear.
* C000002C (R): Address that is currently being read from (approximate)
* C00000200-C00003FF (R/W): 256 color palettes (each is a half-word).
** Bits 0-4: Red palette data (bits 1-4 are the grayscale data on the Nspire screen)
** Bits 5-9: Green palette data (unused on Nspire)
** Bits 10-14: Blue palette data (bits 11-14 are the grayscale data on the Nspire screen if BGR mode is set)
** Bit 15: Intensity (unused on Nspire)
 
==C4000000 - Analog-to-Digital Converter (ADC)==
 
==CC000000 - SHA-256 hash generator==
 
Implements the [http://en.wikipedia.org/wiki/SHA_hash_functions SHA-256 hash algorithm], which is used in cryptographic signatures.
 
* CC000000 (R): Busy if bit 0 set
* CC000000 (W): Write 0x10 and then 0x0 to initialize. Write 0xE to process first block, 0xA to process subsequent blocks
* CC000008 (R/W): ?
* CC000010-CC00004F (W): 512-bit block
* CC000060-CC00007F (R): 256-bit state
 
==DC000000 - Interrupt controller==
 
Registers that operate on sets of IRQs are bitmaps, with bit 0 corresponding to IRQ 0, and so on.
 
* DC000000 (R): Masked IRQ status (always equal to [DC000004] & [DC000008])
* DC000004 (R): Raw interrupt status or sticky interrupt status, depending on bitfield in DC000204
* DC000004 (W): Resets a set of sticky interrupts
* DC000008 (R): Current set of enabled IRQs
* DC000008 (W): Enable a set of IRQs
* DC00000C (R): Mirror of DC000008
* DC00000C (W): Disable a set of IRQs
* DC000020 (R): Reads current IRQ number (no side effects)
* DC000024 (R): Reads current IRQ number, copies the value in DC00002C to DC000028, writes the priority of the current IRQ to DC00002C
* DC000028 (R): Reading this register will reset the IRQ request. The value read is whatever was last copied by reading DC000024
* DC00002C (R/W): 4-bit value. IRQs with priority greater than or equal to this value will not be requested
* DC000100 (R): Masked FIQ status (always equal to [DC000104] & [DC0000108])
* DC000104 (R): Raw interrupt status or sticky interrupt status, depending on bitfield in DC000204
* DC000104 (W): Resets a set of sticky interrupts
* DC000108 (R): Current set of enabled FIQs
* DC000108 (W): Enable a set of FIQs
* DC00010C (R): Mirror of DC000108
* DC00010C (W): Disable a set of FIQs
* DC000120 (R): Reads current FIQ number (no side effects)
* DC000124 (R): Reads current FIQ number, copies the value in DC00012C to DC000128, writes the priority of the current IRQ to DC00012C
* DC000128 (R): Reading this register will reset the FIQ request. The value read is whatever was last copied by reading DC000124
* DC00012C (R/W): 4-bit value. FIQs with priority greater than or equal to this value will not be requested
* DC000200 (R/W): Bits that are 0 will invert the corresponding raw interrupt status bit. Typically this register should hold 0xFFFFFFFF.
* DC000204 (R/W): Bits that are 1 will cause the corresponding bit in DC000004 and DC000104 to read the sticky interrupt status. Bits that are 0 will cause the corresponding bit to read the raw interrupt status.
* DC000208 (R/W): ?
* DC000300-DC0003FF (W): IRQ priority (0-7). One register per IRQ. Lower values indicate higher priority.
 
Here is a list of known IRQ numbers:
 
* IRQ 1 = [[#90020000 - Serial UART|Serial UART]]
* IRQ 3 = [[#90060000 - Watchdog timer|Watchdog timer]]
* IRQ 7 = [[#90000000_-_General_Purpose_I.2FO_.28GPIO.29|GPIO]]
* IRQ 8 = [[#B0000000 - USB OTG controller|USB OTG]]
* IRQ 9 = [[#B4000000 - USB HOST controller|USB HOST]]
* IRQ 11 = [[#C4000000_-_Analog-to-Digital_Converter_.28ADC.29|ADC]]
* IRQ 13 = [[#AC000000 - SD Host Controller|SD Host Controller]]
* IRQ 14 = [[#900F0000_-_Unknown|Unknown]] (?)
* IRQ 15 = [[#900B0000 - Power management|Power management]]
* IRQ 16 = [[#900E0000 - Keypad|Keypad]]
* IRQ 17 = [[#90010000 - Fast timer|Fast timer]]
* IRQ 18 = [[#900C0000 - First timer|First timer]]
* IRQ 19 = [[#900D0000 - Second timer|Second timer]]
* IRQ 21 = [[#C0000000 - LCD controller|LCD controller]]
* IRQ 22 = [[#90100000 - TI-84 Plus link port|TI-84 Plus link port]] (?)

Latest revision as of 17:05, 3 July 2019