FwLib_STC8/include/fw_adc.h
2022-01-10 20:19:12 +08:00

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// Copyright 2021 IOsetting <iosetting(at)outlook.com>
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef ___FW_ADC_H___
#define ___FW_ADC_H___
#include "fw_conf.h"
#include "fw_types.h"
#define ADC_SetPowerState(__STATE__) SFR_ASSIGN(ADC_CONTR, 7, __STATE__)
#define ADC_Start() SFR_SET(ADC_CONTR, 6)
#define ADC_SamplingFinished() (ADC_CONTR & (0x01 << 5))
#define ADC_ClearInterrupt() SFR_RESET(ADC_CONTR, 5)
#define ADC_SetPWMTriggerState(__STATE__) SFR_ASSIGN(ADC_CONTR, 4, __STATE__)
/**
* ADC input channels selection
* Set PxM0/PxM1 to high-impedance input for selected I/O port, and set PxIE
* to shutdown digital input if you want to enable ADC in powerdown mode
*
* STC8H8K64U
* STC8H3K64S4 STC8H2K64T STC8H4K64TLCD STC8G1K08 STC8G2K64S4
* STC8H1K28: STC8H1K08 STC8H3K64S2 STC8H4K64TLR STC8H4K64LCD STC8G1K08A STC8G1K08T STC8G2K64S2
* 0000 P1.0/ADC0 P1.0/ADC0 P1.0/ADC0 P1.0/ADC0 P1.0/ADC0 P3.0/ADC0 P1.0/ADC0 P1.0/ADC0
* 0001 P1.1/ADC1 P1.1/ADC1 P1.1/ADC1 P1.1/ADC1 P1.1/ADC1 P3.1/ADC1 P1.1/ADC1 P1.1/ADC1
* 0010 P1.2/ADC2 N/A P1.2/ADC2 P5.4/ADC2 P5.4/ADC2 P3.2/ADC2 P1.2/ADC2 P1.2/ADC2
* 0011 P1.3/ADC3 N/A N/A P1.3/ADC3 P1.3/ADC3 P3.3/ADC3 P1.3/ADC3 P1.3/ADC3
* 0100 P1.4/ADC4 N/A N/A P1.4/ADC4 P1.4/ADC4 P5.4/ADC4 P1.4/ADC4 P1.4/ADC4
* 0101 P1.5/ADC5 N/A N/A P1.5/ADC5 P1.5/ADC5 P5.5/ADC5 P1.5/ADC5 P1.5/ADC5
* 0110 P1.6/ADC6 N/A P1.6/ADC6 P1.6/ADC6 P6.2/ADC6 N/A P1.6/ADC6 P1.6/ADC6
* 0111 P1.7/ADC7 N/A P1.7/ADC7 P1.7/ADC7 P6.3/ADC7 N/A P1.7/ADC7 P1.7/ADC7
* 1000 P0.0/ADC8 P3.0/ADC8 P0.0/ADC8 P0.0/ADC8 P0.0/ADC8 N/A P3.0/ADC8 P0.0/ADC8
* 1001 P0.1/ADC9 P3.1/ADC9 P0.1/ADC9 P0.1/ADC9 P0.1/ADC9 N/A P3.1/ADC9 P0.1/ADC9
* 1010 P0.2/ADC10 P3.2/ADC10 P0.2/ADC10 P0.2/ADC10 P0.2/ADC10 N/A P3.2/ADC10 P0.2/ADC10
* 1011 P0.3/ADC11 P3.3/ADC11 P0.3/ADC11 P0.3/ADC11 P0.3/ADC11 N/A P3.3/ADC11 P0.3/ADC11
* 1100 N/A P3.4/ADC12 P0.4/ADC12 P0.4/ADC12 P0.4/ADC12 N/A P3.4/ADC12 P0.4/ADC12
* 1101 N/A P3.5/ADC13 P0.5/ADC13 P0.5/ADC13 P0.5/ADC13 N/A P3.5/ADC13 P0.5/ADC13
* 1110 N/A P3.6/ADC14 P0.6/ADC14 P0.6/ADC14 P0.6/ADC14 N/A P3.6/ADC14 P0.6/ADC14
* 1111 Internal 1.19V voltage reference
*/
#define ADC_SetChannel(__CHANNEL__) (ADC_CONTR = ADC_CONTR & ~0x0F | ((__CHANNEL__ & 0x0F) << 0))
/**
* 10-bit in [ADC_RES,ADC_RESL]: STC8H1K28,STC8H1K08
* 12-bit in [ADC_RES,ADC_RESL]: STC8H3K64S4,STC8H3K64S2,STC8H8K64U,STC8H2K64T,STC8H4K64TLR,STC8H4K64TLCD,STC8H4K64LCD
*/
#define ADC_SetResultAlignmentLeft() SFR_RESET(ADCCFG, 5)
#define ADC_SetResultAlignmentRight() SFR_SET(ADCCFG, 5)
/**
* Time of one complete ADC conversion:
* 10-bit ADC: (Switch + 1) + (Hold + 1) + (Sample + 1) + 10
* 12-bit ADC: (Switch + 1) + (Hold + 1) + (Sample + 1) + 12
*
* ADC conversion frequency:
* 10-bit ADC Frequency SYSCLK / 2 / (__PRESCALER__ + 1) / [(Switch + 1) + (Hold + 1) + (Sample + 1) + 10]
* 12-bit ADC Frequency SYSCLK / 2 / (__PRESCALER__ + 1) / [(Switch + 1) + (Hold + 1) + (Sample + 1) + 12]
*
*/
/**
* ADC clock = SYSclk/2/(__PRESCALER__+1)
*/
#define ADC_SetClockPrescaler(__PRESCALER__) (ADCCFG = ADCCFG & ~0x0F | ((__PRESCALER__) << 0))
/**
* Channel switch time,
* 0: 1 ADC clock;
* 1: 2 ADC clocks
*/
#define ADC_SetChannelSwitchTime(__CLKS_1OR2__) SFR_ASSIGN(ADCTIM, 7, __CLKS_1OR2__)
/**
* Channel hold time,
* 0x00: 1 ADC clock;
* 0x01: 2 ADC clocks
* 0x02: 3 ADC clocks
* 0x03: 4 ADC clocks
*/
#define ADC_SetChannelHoldTime(__CLKS_1TO4__) (ADCTIM = ADCTIM & ~(0x03 << 5) | ((__CLKS_1TO4__) << 5))
/**
* Sample time
* value should be equal or larger than 10
* 0x00: 1 ADC clock;
* 0x01: 2 ADC clocks
* ...
* 0x1F: 32 ADC clocks
*/
#define ADC_SetSampleTime(__CLKS_1TO32__) (ADCTIM = ADCTIM & ~(0x1F << 0) | ((__CLKS_1TO32__) << 0))
/**
* Start ADC conversion, and return 8-bit result
*/
uint8_t ADC_Convert(void);
/**
* Start ADC conversion, and return 16-bit high precision result
*/
uint16_t ADC_ConvertHP(void);
#endif