📄 psocconfig.lis
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0024 DBB01FN: equ 24h ; Function Register (RW)
0025 DBB01IN: equ 25h ; Input Register (RW)
0026 DBB01OU: equ 26h ; Output Register (RW)
0000
0000 ; Digital PSoC block 02, Communications Type B
0028 DCB02FN: equ 28h ; Function Register (RW)
0029 DCB02IN: equ 29h ; Input Register (RW)
002A DCB02OU: equ 2Ah ; Output Register (RW)
0000
0000 ; Digital PSoC block 03, Communications Type B
002C DCB03FN: equ 2Ch ; Function Register (RW)
002D DCB03IN: equ 2Dh ; Input Register (RW)
002E DCB03OU: equ 2Eh ; Output Register (RW)
0000
0000 ; Digital PSoC block 10, Basic Type B
0030 DBB10FN: equ 30h ; Function Register (RW)
0031 DBB10IN: equ 31h ; Input Register (RW)
0032 DBB10OU: equ 32h ; Output Register (RW)
0000
0000 ; Digital PSoC block 11, Basic Type B
0034 DBB11FN: equ 34h ; Function Register (RW)
0035 DBB11IN: equ 35h ; Input Register (RW)
0036 DBB11OU: equ 36h ; Output Register (RW)
0000
0000 ; Digital PSoC block 12, Communications Type B
0038 DCB12FN: equ 38h ; Function Register (RW)
0039 DCB12IN: equ 39h ; Input Register (RW)
003A DCB12OU: equ 3Ah ; Output Register (RW)
0000
0000 ; Digital PSoC block 13, Communications Type B
003C DCB13FN: equ 3Ch ; Function Register (RW)
003D DCB13IN: equ 3Dh ; Input Register (RW)
003E DCB13OU: equ 3Eh ; Output Register (RW)
0000
0000 ;------------------------------------------------
0000 ; System and Global Resource Registers
0000 ; Note: Also see this address range in Bank 0.
0000 ;------------------------------------------------
0000
0060 CLK_CR0: equ 60h ; Analog Column Clock Select Register 0 (RW)
00C0 CLK_CR0_ACOLUMN_3: equ C0h ; MASK: Specify clock for analog cloumn
0030 CLK_CR0_ACOLUMN_2: equ 30h ; MASK: Specify clock for analog cloumn
000C CLK_CR0_ACOLUMN_1: equ 0Ch ; MASK: Specify clock for analog cloumn
0003 CLK_CR0_ACOLUMN_0: equ 03h ; MASK: Specify clock for analog cloumn
0000
0061 CLK_CR1: equ 61h ; Analog Clock Source Select Register 1 (RW)
0040 CLK_CR1_SHDIS: equ 40h ; MASK: Sample and Hold Disable (all Columns)
0038 CLK_CR1_ACLK1: equ 38h ; MASK: Digital PSoC block for analog source
0007 CLK_CR1_ACLK2: equ 07h ; MASK: Digital PSoC block for analog source
0000
0062 ABF_CR0: equ 62h ; Analog Output Buffer Control Register 0 (RW)
0080 ABF_CR0_ACOL1MUX: equ 80h ; MASK: Analog Column 1 Mux control
0040 ABF_CR0_ACOL2MUX: equ 40h ; MASK: Analog Column 2 Mux control
0020 ABF_CR0_ABUF1EN: equ 20h ; MASK: Enable ACol 1 analog buffer (P0[5])
0010 ABF_CR0_ABUF2EN: equ 10h ; MASK: Enable ACol 2 analog buffer (P0[4])
0008 ABF_CR0_ABUF0EN: equ 08h ; MASK: Enable ACol 0 analog buffer (P0[3])
0004 ABF_CR0_ABUF3EN: equ 04h ; MASK: Enable ACol 3 analog buffer (P0[2])
0002 ABF_CR0_BYPASS: equ 02h ; MASK: Bypass the analog buffers
0001 ABF_CR0_PWR: equ 01h ; MASK: High power mode on all analog buffers
0000
0063 AMD_CR0: equ 63h ; Analog Modulator Control Register 0 (RW)
0070 AMD_CR0_AMOD2: equ 70h ; MASK: Modulation source for analog column 2
0007 AMD_CR0_AMOD0: equ 07h ; MASK: Modulation source for analog column 1
0000
0066 AMD_CR1: equ 66h ; Analog Modulator Control Register 1 (RW)
0070 AMD_CR1_AMOD3: equ 70h ; MASK: Modulation ctrl for analog column 3
0007 AMD_CR1_AMOD1: equ 07h ; MASK: Modulation ctrl for analog column 1
0000
0067 ALT_CR0: equ 67h ; Analog Look Up Table (LUT) Register 0 (RW)
00F0 ALT_CR0_LUT1: equ F0h ; MASK: Look up table 1 selection
000F ALT_CR0_LUT0: equ 0Fh ; MASK: Look up table 0 selection
0000
0068 ALT_CR1: equ 68h ; Analog Look Up Table (LUT) Register 1 (RW)
00F0 ALT_CR1_LUT3: equ F0h ; MASK: Look up table 3 selection
000F ALT_CR1_LUT2: equ 0Fh ; MASK: Look up table 2 selection
0000
0069 CLK_CR2: equ 69h ; Analog Clock Source Control Register 2 (RW)
0008 CLK_CR2_ACLK1R: equ 08h ; MASK: Analog Clock 1 selection range
0001 CLK_CR2_ACLK0R: equ 01h ; MASK: Analog Clock 0 selection range
0000
0000 ;------------------------------------------------
0000 ; Global Digital Interconnects
0000 ;------------------------------------------------
0000
00D0 GDI_O_IN: equ D0h ; Global Dig Interconnect Odd Inputs Reg (RW)
00D1 GDI_E_IN: equ D1h ; Global Dig Interconnect Even Inputs Reg (RW)
00D2 GDI_O_OU: equ D2h ; Global Dig Interconnect Odd Outputs Reg (RW)
00D3 GDI_E_OU: equ D3h ; Global Dig Interconnect Even Outputs Reg (RW)
0000
0000 ;------------------------------------------------
0000 ; Clock and System Control Registers
0000 ;------------------------------------------------
0000
00DE OSC_CR4: equ DEh ; Oscillator Control Register 4 (RW)
0003 OSC_CR4_VC3: equ 03h ; MASK: System VC3 Clock source
0000
00DF OSC_CR3: equ DFh ; Oscillator Control Register 3 (RW)
0000
00E0 OSC_CR0: equ E0h ; System Oscillator Control Register 0 (RW)
0080 OSC_CR0_32K_SELECT: equ 80h ; MASK: Enable/Disable External XTAL Osc
0040 OSC_CR0_PLL_MODE: equ 40h ; MASK: Enable/Disable PLL
0020 OSC_CR0_NO_BUZZ: equ 20h ; MASK: Bandgap always powered/BUZZ bandgap
0018 OSC_CR0_SLEEP: equ 18h ; MASK: Set Sleep timer freq/period
0000 OSC_CR0_SLEEP_512Hz: equ 00h ; Set sleep bits for 1.95ms period
0008 OSC_CR0_SLEEP_64Hz: equ 08h ; Set sleep bits for 15.6ms period
0010 OSC_CR0_SLEEP_8Hz: equ 10h ; Set sleep bits for 125ms period
0018 OSC_CR0_SLEEP_1Hz: equ 18h ; Set sleep bits for 1 sec period
0007 OSC_CR0_CPU: equ 07h ; MASK: Set CPU Frequency
0000 OSC_CR0_CPU_3MHz: equ 00h ; set CPU Freq bits for 3MHz Operation
0001 OSC_CR0_CPU_6MHz: equ 01h ; set CPU Freq bits for 6MHz Operation
0002 OSC_CR0_CPU_12MHz: equ 02h ; set CPU Freq bits for 12MHz Operation
0003 OSC_CR0_CPU_24MHz: equ 03h ; set CPU Freq bits for 24MHz Operation
0004 OSC_CR0_CPU_1d5MHz: equ 04h ; set CPU Freq bits for 1.5MHz Operation
0005 OSC_CR0_CPU_750kHz: equ 05h ; set CPU Freq bits for 750kHz Operation
0006 OSC_CR0_CPU_187d5kHz: equ 06h ; set CPU Freq bits for 187.5kHz Operation
0007 OSC_CR0_CPU_93d7kHz: equ 07h ; set CPU Freq bits for 93.7kHz Operation
0000
00E1 OSC_CR1: equ E1h ; System VC1/VC2 Divider Control Register (RW)
00F0 OSC_CR1_VC1: equ F0h ; MASK: System VC1 24MHz/External Clk divider
000F OSC_CR1_VC2: equ 0Fh ; MASK: System VC2 24MHz/External Clk divider
0000
00E2 OSC_CR2: equ E2h ; Oscillator Control Register 2 (RW)
0004 OSC_CR2_EXTCLKEN: equ 04h ; MASK: Enable/Disable External Clock
0002 OSC_CR2_IMODIS: equ 02h ; MASK: Enable/Disable System (IMO) Clock Net
0001 OSC_CR2_SYSCLKX2DIS: equ 01h ; MASK: Enable/Disable 48MHz clock source
0000
00E3 VLT_CR: equ E3h ; Voltage Monitor Control Register (RW)
0080 VLT_CR_SMP: equ 80h ; MASK: Enable Switch Mode Pump
0030 VLT_CR_PORLEV: equ 30h ; MASK: Mask for Power on Reset level control
0000 VLT_CR_3V0_POR: equ 00h ; MASK: Set the Precision POR to 3.0V
0010 VLT_CR_4V5_POR: equ 10h ; MASK: Set the Precision POR to 4.5V
0020 VLT_CR_4V75_POR: equ 20h ; MASK: Set the Precision POR to 4.75V
0030 VLT_CR_DISABLE: equ 30h ; MASK: Disable the Precision POR
0008 VLT_CR_LVDTBEN: equ 08h ; MASK: Enable the CPU Throttle Back on LVD
0007 VLT_CR_VM: equ 07h ; MASK: Mask for Voltage Monitor level setting
0000
00E4 VLT_CMP: equ E4h ; Voltage Monitor Comparators Register (R)
0008 VLT_CMP_PUMP: equ 08h ; MASK: Vcc below SMP trip level
0008 VLT_CMP_LVD: equ 08h ; MASK: Vcc below LVD trip level
0008 VLT_CMP_PPOR: equ 08h ; MASK: Vcc below PPOR trip level
0000
00E8 IMO_TR: equ E8h ; Internal Main Oscillator Trim Register (W)
00E9 ILO_TR: equ E9h ; Internal Low-speed Oscillator Trim (W)
00EA BDG_TR: equ EAh ; Band Gap Trim Register (W)
00EB ECO_TR: equ EBh ; External Oscillator Trim Register (W)
0000
0000 ;;=============================================================================
0000 ;; M8C System Macros
0000 ;; These macros should be used when their functions are needed.
0000 ;;=============================================================================
0000
0000 ;----------------------------------------------------
0000 ; Swapping Register Banks
0000 ;----------------------------------------------------
0000 macro M8C_SetBank0
0000 and F, ~FLAG_XIO_MASK
0000 macro M8C_SetBank1
0000 or F, FLAG_XIO_MASK
0000 macro M8C_EnableGInt
0000 or F, FLAG_GLOBAL_IE
0000 macro M8C_DisableGInt
0000 and F, ~FLAG_GLOBAL_IE
0000 macro M8C_DisableIntMask
0000 and reg[@0], ~@1 ; disable specified interrupt enable bit
0000 macro M8C_EnableIntMask
0000 or reg[@0], @1 ; enable specified interrupt enable bit
0000 macro M8C_ClearIntFlag
0000 and reg[@0], ~@1 ; clear specified interrupt enable bit
0000 macro M8C_EnableWatchDog
0000 and reg[CPU_SCR0], ~CPU_SCR0_PORS_MASK
0000 macro M8C_ClearWDT
0000 mov reg[RES_WDT], 00h
0000 macro M8C_ClearWDTAndSleep
0000 mov reg[RES_WDT], 38h
0000 macro M8C_Stall
0000 or reg[ASY_CR], ASY_CR_SYNCEN
0000 macro M8C_Unstall
0000 and reg[ASY_CR], ~ASY_CR_SYNCEN
0000 macro M8C_Sleep
0000 or reg[CPU_SCR0], CPU_SCR0_SLEEP_MASK
0000 ; The next instruction to be executed depends on the state of the
0000 ; various interrupt enable bits. If some interrupts are enabled
0000 ; and the global interrupts are disabled, the next instruction will
0000 ; be the one that follows the invocation of this macro. If global
0000 ; interrupts are also enabled then the next instruction will be
0000 ; from the interrupt vector table. If no interrupts are enabled
0000 ; then the CPU sleeps forever.
0000 macro M8C_Stop
0000 ; In general, you probably don't want to do this, but here's how:
0000 or reg[CPU_SCR0], CPU_SCR0_STOP_MASK
0000 ; Next instruction to be executed is located in the interrupt
0000 ; vector table entry for Power-On Reset.
0000 macro M8C_Reset
0000 ; Restore CPU to the power-on reset state.
0000 mov A, 0
0000 SSC
0000 ; Next non-supervisor instruction will be at interrupt vector 0.
0000 macro Suspend_CodeCompressor
0000 or F, 0
0000 macro Resume_CodeCompressor
0000 add SP, 0
0002 CPU_CLOCK: equ 2h ;CPU clock value
0007 CPU_CLOCK_MASK: equ 7h ;CPU clock mask
0002 CPU_CLOCK_JUST: equ 2h ;CPU clock value justified
0000 SELECT_32K: equ 0h ;32K select value
0080 SELECT_32K_MASK: equ 80h ;32K select mask
0000 SELECT_32K_JUST: equ 0h ;32K select value justified
0000 PLL_MODE: equ 0h ;PLL mode value
0040 PLL_MODE_MASK: equ 40h ;PLL mode mask
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