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参数资料
| 型号: | ADE7569ASTZF16 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 103/136页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METER MCU 16K 64LQFP |
| 标准包装: | 1 |
| 输入阻抗: | * |
| 测量误差: | * |
| 电压 - 高输入/输出: | * |
| 电压 - 低输入/输出: | * |
| 电流 - 电源: | * |
| 电源电压: | * |
| 测量仪表类型: | * |
| 工作温度: | * |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 64-LQFP |
| 供应商设备封装: | 64-LQFP(10x10) |
| 包装: | 托盘 |
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��
�
�Preliminary� Technical� Data�
�Mode� 2� (8-Bit� Timer/Counter� with� Autoreload)�
�Mode� 2� configures� the� timer� register� as� an� 8-bit� counter� (TL0)�
�with� automatic� reload� as� shown� in� Figure� 84.� Overflow� from� TL0�
�not� only� sets� TF0,� but� also� reloads� TL0� with� the� contents� of� TH0,�
�which� is� preset� by� software.� The� reload� leaves� TH0� unchanged.�
�f� CORE�
�ADE7566/ADE7569�
�TIMER� 2�
�Timer/Counter� 2� Data� Registers�
�Timer/Counter� 2� also� has� two� pairs� of� 8-bit� data� registers�
�associated� with� it:� Timer� 2� High� Byte� SFR� (TH2,� 0xCD),� Timer�
�2� Low� Byte� SFR� (TL2,� 0xCC),� Timer� 2� Reload/Capture� High�
�Byte� SFR� (RACP2H,� 0xCB),� and� Timer� 2� Reload/Capture� Low�
�P0.6/T0�
�C/T� =� 0�
�C/T� =� 1�
�CONTROL�
�TL0�
�(8� BITS)�
�TF0�
�INTERRUPT�
�Byte� SFR� (RACP2L,� 0xCA).� These� are� used� as� both� timer� data�
�registers� and� as� timer� capture/reload� registers� (see� Table� 106� to�
�Table� 109).�
�Timer/Counter� 2� Operating� Modes�
�TR0�
�The� following� sections� describe� the� operating� modes� for�
�GATE�
�INT� 0�
�RELOAD�
�TH0�
�(8� BITS)�
�Figure� 84.� Timer/Counter� 0,� Mode� 2�
�Timer/Counter� 2.� The� operating� modes� are� selected� by� bits� in�
�the� Timer/Counter� 2� Control� SFR� (T2CON,� 0xC8),� as� shown� in�
�Table� 101� and� Table� 110.�
�Mode� 3� (Two� 8-Bit� Timer/Counters)�
�Table� 110.� T2CON� Operating� Modes�
�RCLK� (or)� TCLK� CAP2� TR2�
�Mode�
�Mode� 3� has� different� effects� on� Timer� 0� and� Timer� 1.� Timer� 1� in�
�Mode� 3� simply� holds� its� count.� The� effect� is� the� same� as� setting�
�TR1� =� 0.� Timer� 0� in� Mode� 3� establishes� TL0� and� TH0� as� two�
�separate� counters.� This� configuration� is� shown� in� Figure� 85.�
�0�
�0�
�1�
�X�
�0�
�1�
�X�
�X�
�1�
�1�
�1�
�0�
�16-Bit� Autoreload�
�16-Bit� Capture�
�Baud� Rate�
�Off�
�TL0� uses� the� Timer� 0� control� bits,� C/T,� Gate0� (see� Table� 99),�
�TR0,� TF0� (see� Table� 100),� and� INT0.� TH0� is� locked� into� a� timer�
�function� (counting� machine� cycles)� and� takes� over� the� use� of�
�TR1� and� TF1� from� Timer� 1.� Therefore,� TH0� controls� the� Timer� 1�
�interrupt.� Mode� 3� is� provided� for� applications� requiring� an�
�extra� 8-bit� timer� or� counter.�
�When� Timer� 0� is� in� Mode� 3,� Timer� 1� can� be� turned� on� and� off�
�by� switching� it� out� of� and� into� its� own� Mode� 3,� or� it� can� be� used�
�by� the� serial� interface� as� a� baud� rate� generator.� In� fact,� Timer1�
�can� be� used� in� any� application� not� requiring� an� interrupt� from�
�Timer� 1� itself.�
�16-Bit� Autoreload� Mode�
�Autoreload� mode� has� two� options� that� are� selected� by� Bit� EXEN2�
�in� Timer/Counter� 2� Control� SFR� (T2CON,� 0xC8).� If� EXEN2� =� 0�
�when� Timer� 2� rolls� over,� it� not� only� sets� TF2� but� also� causes� the�
�Timer� 2� registers� to� be� reloaded� with� the� 16-bit� value� in� registers�
�Timer� 2� Reload/Capture� High� Byte� SFR� (RACP2H,� 0xCB)� and�
�Timer� 2� Reload/Capture� Low� Byte� SFR� (RACP2L,� 0xCA),�
�which� are� preset� by� software.� If� EXEN2� =� 1,� Timer� 2� performs�
�the� same� events� as� when� EXEN2� =� 0,� but� adds� a� 1-to-0� transition�
�at� external� input� T2EX,� which� triggers� the� 16-bit� reload� and� sets�
�EXF2.� Autoreload� mode� is� shown� in� Figure� 86.�
�f� CORE�
�CORE�
�CLK/12�
�16-Bit� Capture� Mode�
�C/T� =� 0�
�C/T� =� 1�
�TL0�
�(8� BITS)�
�TF0�
�INTERRUPT�
�Capture� mode� has� two� options� that� are� selected� by� Bit� EXEN2�
�in� Timer/Counter� 2� Control� SFR� (T2CON,� 0xC8).� If� EXEN2� =� 0,�
�P0.6/T0�
�Timer� 2� is� a� 16-bit� timer� or� counter� that,� upon� overflowing,� sets�
�GATE�
�INT� 0�
�TR0�
�CONTROL�
�Bit� TF2,� the� Timer� 2� overflow� bit,� which� can� be� used� to� generate�
�an� interrupt.� If� EXEN2� =� 1,� Timer� 2� performs� the� same� events�
�as� when� EXEN2� =� 0,� but� adds� a� l-to-0� transition� on� external�
�input� T2E,� which� causes� the� current� value� in� the� Timer� 2� registers,�
�TL2� and� TH2,� to� be� captured� into� the� RCAP2L� and� RCAP2H�
�f� CORE� /12�
�TH0�
�(8� BITS)�
�TF1�
�INTERRUPT�
�registers,� respectively.� In� addition,� the� transition� at� T2EX� causes�
�Bit� EXF2� in� T2CON� to� be� set,� and� EXF2,� like� TF2,� can� generate�
�an� interrupt.� Capture� mode� is� shown� in� Figure� 87.� The� baud�
�TR1�
�Figure� 85.� Timer/Counter� 0,� Mode� 3�
�rate� generator� mode� is� selected� by� RCLK� =� 1� and/or� TCLK� =� 1.�
�In� either� case,� if� Timer� 2� is� used� to� generate� the� baud� rate,� the� TF2�
�interrupt� flag� does� not� occur.� Therefore,� Timer� 2� interrupts� do�
�not� occur� and� do� not� have� to� be� disabled.� In� this� mode,� the� EXF2�
�flag� can,� however,� still� cause� interrupts� that� can� be� used� as� a� third�
�external� interrupt.� Baud� rate� generation� is� described� as� part� of�
�the� UART� serial� port� operation� in� UART� Serial� Interface� section.�
�Rev.� PrA� |� Page� 103� of� 136�
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