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64 Commits

Author SHA1 Message Date
Benny Liu 794f8bcffe Test LED function of TRIG01, yes yes. 2021-02-26 16:41:19 +08:00
Benny Liu 2c08ab3daf Test LED function of TRIG01, still no no. 2021-02-22 17:53:08 +08:00
Benny Liu c1a8f9aa2f Turn on trigger pin to test TW1508. 2021-02-20 14:37:53 +08:00
Benny Liu 12fa4d8d18 Use PIN_setOutputValue to send signal. 2021-02-20 14:32:15 +08:00
Benny Liu 97db6b7c4c Use GPIO to control TW1508, yes yes. 2021-02-18 18:20:24 +08:00
Benny Liu 6dfa474478 Use GPIO to control TW1508. 2021-02-18 16:45:00 +08:00
Benny Liu 0cb4eb6e37 Add trigger testing pin, good. 2021-02-17 11:59:26 +08:00
Benny Liu 953b4f963d Add trigger testing pin, still no no. 2021-02-17 11:37:34 +08:00
Roy b4d2e96c1b [update] gas1 is true when run done 2020-12-11 17:20:34 +08:00
Roy 4e46602753 [update] gas1 default lastSwitch is true 2020-12-11 16:22:28 +08:00
Roy ba49c70af7 [update] MEGA_VAL_1 always open when elite on 2020-12-11 15:03:44 +08:00
Benny Liu 7a80f99106 Merge remote-tracking branch 'origin/Elite1.5_developement_magafly' into Elite1.5_developement_magafly 2020-12-10 15:51:19 +08:00
Benny Liu 59a3dfedf5 cali_count_max = 5000 for smallest Vin and Iin gain 2020-12-10 15:50:03 +08:00
Roy af1613e43a [update] add t6 & t7 of every func of pulse mode 2020-12-10 14:23:06 +08:00
Roy ef61452bbf [update] every board adjust vout 2020-12-07 18:28:45 +08:00
Roy 6c4c5a6e8e [update] open elite when connect power 2020-12-07 15:34:11 +08:00
Roy 1f656f6be3 [update] every board adjust vout 2020-12-07 13:44:03 +08:00
Roy 3dea49aaa3 [update] vout of stim of pulse mode is 3.281v(megafly = 15v) 2020-12-04 18:33:30 +08:00
Roy 8ad154f4e4 [cali] add BOARD_C724 & BOARD_C874 calibration data. 2020-12-04 18:28:29 +08:00
Benny Liu 19c85c0fb5 Don't care 2020-12-03 18:12:47 +08:00
Roy 6807a787d9 [update] vout of stim of pulse mode is 3.281v(megafly = 15v) & record trigger 2020-12-03 15:40:14 +08:00
Roy 557953aedc [update] only stim of pulse mode send data & reset when no func of pulse mode 2020-12-03 11:16:09 +08:00
Roy d17a54d7f8 [update] update pulsemode's gas2 & ledR & ledG 2020-12-03 09:47:06 +08:00
Roy 31a7e9b5f2 [update] set sti_v5 = 0V 2020-12-02 11:49:08 +08:00
Roy ec69da3b6d [update] open highz when reset 2020-12-02 11:33:13 +08:00
Roy b9aff38268 [update] controller send gas0's instruction 2020-12-02 09:21:45 +08:00
Roy 627ca7dde0 [update] comment out 2020-11-30 11:20:08 +08:00
Roy ae143d2d7b [update] if E.stim volt = 0V, open highz 2020-11-27 18:49:15 +08:00
Roy 900c9c4706 [update] update pulsemode's gas1 2020-11-27 18:22:18 +08:00
Roy b712c99487 [update] update pulsemode's gas0 2020-11-27 17:59:13 +08:00
Roy 9664e9ab6d [update] update pulsemode's ledR 2020-11-27 17:28:05 +08:00
Roy f43341fc0c [update] update pulsemode's ledG 2020-11-27 17:17:08 +08:00
Roy aa572db220 [update] update pulsemode's ledG 2020-11-27 11:38:09 +08:00
Roy 47c10d5e73 Merge branch 'Elite1.5_developement_magafly_1119_2' into Elite1.5_developement_magafly_1119_1
# Conflicts:
#	simplelink/ble_sdk_2_02_02_25/src/examples/simple_peripheral/cc26xx/app/headstage/headstage.h
2020-11-27 10:58:57 +08:00
Roy b743a552ee [update] align notify and update pulsemode's ledG 2020-11-26 22:42:20 +08:00
Roy e2bb110d15 [update] Change 1.5 Iin measurement range. 2020-11-26 18:27:34 +08:00
Benny Liu 2723304b4c ADC_test for output control. 2020-11-26 17:45:14 +08:00
Roy d1c324acde [update] add Vout boundary (usc) 2020-11-26 16:20:15 +08:00
Roy afa28c9781 [update] run pulsemode's ledG 2020-11-26 10:08:23 +08:00
Roy 9cc51a14c6 [update] run pulsemode's ledG 2020-11-25 13:55:11 +08:00
Roy d305b8a948 not ok 2020-11-25 09:41:31 +08:00
Roy 1b0acb5bad [update] run pulsemode when receive trigger.[ok] 2020-11-24 18:04:30 +08:00
Roy 1d4330b903 [update] run pulsemode when receive trigger.[ok] 2020-11-24 17:37:16 +08:00
Roy ec1782b6f8 [update] run pulsemode when receive trigger. 2020-11-23 17:31:14 +08:00
Roy f2b52f34a9 [cali] update BOARD_C7A1 calibration data. 2020-11-23 13:54:40 +08:00
Roy bbf60ebfed test periodicEvent 2020-11-19 16:00:51 +08:00
Roy 0e9f40bdd5 Megafly trigger yes yes. 2020-11-19 15:47:07 +08:00
Roy e32897f6b5 [update] Megafly notify check. & Megafly trigger. 2020-11-19 15:40:12 +08:00
Roy 6ee4b47d90 [update]update pulsefly INSTRUCTION.notifyRate 2020-11-18 11:57:53 +08:00
YiChin dac19f62b2 test ok,but T2~T3=0 can't handle 2020-11-16 14:43:50 +08:00
YiChin 8e6d112729 test ok,but T2~T3=0 can't handle 2020-11-16 14:30:27 +08:00
YiChin 9e1dc1e3f4 test ok,but T1~T5=0 can't handle 2020-11-13 18:28:48 +08:00
YiChin 49fb3afc01 test ok,but T1~T5=0 can't handle 2020-11-13 13:30:47 +08:00
YiChin f3b402fce9 test ok 2020-11-12 18:01:32 +08:00
YiChin ef9a38d7fc test not ok(RT not ok) 2020-11-12 17:24:04 +08:00
YiChin 67275a7921 test not ok(RT not ok) 2020-11-12 16:17:15 +08:00
YiChin 0ddaa02414 test not ok 2020-11-12 15:39:44 +08:00
YiChin 96d5735164 test not ok 2020-11-12 14:55:28 +08:00
YiChin ac32fb9c73 test not ok 2020-11-12 12:23:14 +08:00
Benny Liu 9acc242ff6 Add Megafly pin. 2020-11-12 10:22:31 +08:00
YiChin d8a403c410 add BOARD_C771 calibration data. 2020-11-12 10:18:12 +08:00
YiChin f1d0acef23 update pulse mode 2020-11-12 10:16:40 +08:00
YiChin 9811572f47 add pulse mode 2020-11-11 16:44:49 +08:00
YiChin f6167c25ca update SPI hold & take away AutoGainChangeVout() 2020-10-20 18:41:00 +08:00
30 changed files with 2635 additions and 810 deletions
@@ -34,17 +34,17 @@
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<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DIAG_SUPPRESS.544523272" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DIAG_SUPPRESS" valueType="stringList">
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<listOptionValue builtIn="false" value="10247-D"/>
<listOptionValue builtIn="false" value="16002-D"/>
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<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DISPLAY_ERROR_NUMBER.468817864" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DISPLAY_ERROR_NUMBER" value="true" valueType="boolean"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.XML_LINK_INFO.1679096029" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.XML_LINK_INFO" value="&quot;${ProjName}_linkInfo.xml&quot;" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF.254835397" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF.on" valueType="enumerated"/>
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<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DIAG_WRAP.1281207998" name="Wrap diagnostic messages (--diag_wrap)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DIAG_WRAP" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DIAG_WRAP.off" valueType="enumerated"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DISPLAY_ERROR_NUMBER.468817864" name="Emit diagnostic identifier numbers (--display_error_number)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.DISPLAY_ERROR_NUMBER" value="true" valueType="boolean"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.XML_LINK_INFO.1679096029" name="Detailed link information data-base into &lt;file&gt; (--xml_link_info, -xml_link_info)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.XML_LINK_INFO" value="&quot;${ProjName}_linkInfo.xml&quot;" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF.254835397" name="Aggressively reduce size of the DWARF information (--compress_dwarf)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.COMPRESS_DWARF.on" valueType="enumerated"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.UNUSED_SECTION_ELIMINATION.1848192295" name="Eliminate sections not needed in the executable (--unused_section_elimination)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.UNUSED_SECTION_ELIMINATION" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.linkerID.UNUSED_SECTION_ELIMINATION.on" valueType="enumerated"/>
<inputType id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__CMD_SRCS.1999849945" name="Linker Command Files" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__CMD_SRCS"/>
<inputType id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__CMD2_SRCS.25027104" name="Linker Command Files" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__CMD2_SRCS"/>
<inputType id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__GEN_CMDS.888093741" name="Generated Linker Command Files" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.exeLinker.inputType__GEN_CMDS"/>
</tool>
<tool id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.19288898" name="ARM Hex Utility" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex">
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.ROMWIDTH.11734737" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.ROMWIDTH" value="8" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.MEMWIDTH.466140455" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.MEMWIDTH" value="8" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT.824070691" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT.INTEL" valueType="enumerated"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.ROMWIDTH.11734737" name="Specify rom width (--romwidth, -romwidth=width)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.ROMWIDTH" value="8" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.MEMWIDTH.466140455" name="Specify memory width (--memwidth, -memwidth=width)" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.MEMWIDTH" value="8" valueType="string"/>
<option id="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT.824070691" name="Output format" superClass="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT" value="com.ti.ccstudio.buildDefinitions.TMS470_18.1.hex.OUTPUT_FORMAT.INTEL" valueType="enumerated"/>
</tool>
<tool id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.1392704063" name="XDCtools" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool">
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.XDC_PATH.225737408" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.XDC_PATH" valueType="stringList">
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.XDC_PATH.225737408" name="Package repositories (--xdcpath)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.XDC_PATH" valueType="stringList">
<listOptionValue builtIn="false" value="${COM_TI_RTSC_TIRTOSCC13XX_CC26XX_REPOS}"/>
<listOptionValue builtIn="false" value="${TARGET_CONTENT_BASE}"/>
</option>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.TARGET.571281110" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.TARGET" value="ti.targets.arm.elf.M3" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM.205178830" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM" value="ti.platforms.simplelink:CC2640F128" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM_RAW.1097777495" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM_RAW" value="ti.platforms.simplelink:CC2640F128" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.BUILD_PROFILE.744121344" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.BUILD_PROFILE" value="release" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.CODEGEN_TOOL_DIR.165807018" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.CODEGEN_TOOL_DIR" value="${CG_TOOL_ROOT}" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.COMPILE_OPTIONS.391961861" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.COMPILE_OPTIONS" value="&quot;${COMPILER_FLAGS}&quot;" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.TARGET.571281110" name="Target (-t)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.TARGET" value="ti.targets.arm.elf.M3" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM.205178830" name="Platform (-p)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM" value="ti.platforms.simplelink:CC2640F128" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM_RAW.1097777495" name="Platform (-p)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.PLATFORM_RAW" value="ti.platforms.simplelink:CC2640F128" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.BUILD_PROFILE.744121344" name="Build-profile (-r)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.BUILD_PROFILE" value="release" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.CODEGEN_TOOL_DIR.165807018" name="Compiler tools directory (-c)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.CODEGEN_TOOL_DIR" value="${CG_TOOL_ROOT}" valueType="string"/>
<option id="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.COMPILE_OPTIONS.391961861" name="Additional compiler options (--compileOptions)" superClass="com.ti.rtsc.buildDefinitions.XDC_3.16.tool.COMPILE_OPTIONS" value="&quot;${COMPILER_FLAGS}&quot;" valueType="string"/>
</tool>
</toolChain>
</folderInfo>
@@ -16,7 +16,7 @@
# sources were generated) is:
# C:\ti\simplelink\ble_sdk_2_02_02_25\examples\cc2650em\simple_peripheral\ccs\config\src
#
GEN_SRC_DIR ?= ../../../../../ti/simplelink/ble_sdk_2_02_02_25/examples/cc2650em/simple_peripheral/ccs/config/src
GEN_SRC_DIR ?= ../../config/src
ifeq (,$(wildcard $(GEN_SRC_DIR)))
$(error "ERROR: GEN_SRC_DIR must be set to the directory containing the generated sources")
@@ -1,12 +1,12 @@
XOPTS = -I"C:/ti/xdctools_3_32_00_06_core/packages/" -Dxdc_target_types__=C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/ti/targets/arm/elf/std.h -Dxdc_target_name__=M3
XOPTS = -I"C:/ti/xdctools_3_32_02_25_core/packages/" -Dxdc_target_types__=C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/ti/targets/arm/elf/std.h -Dxdc_target_name__=M3
vpath % C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/ti/sysbios/
vpath %.c C:/ti/xdctools_3_32_00_06_core/packages/
vpath %.c C:/ti/xdctools_3_32_02_25_core/packages/
CCOPTS = --endian=little -mv7M3 --abi=eabi -q -ms --opt_for_speed=0 --program_level_compile -o3 -g --optimize_with_debug -Dti_sysbios_knl_Task_minimizeLatency__D=FALSE -Dti_sysbios_family_arm_cc26xx_Boot_driverlibVersion=2 -Dti_sysbios_knl_Clock_stopCheckNext__D=TRUE -Dti_sysbios_family_arm_m3_Hwi_enableException__D=TRUE -Dti_sysbios_family_arm_m3_Hwi_disablePriority__D=32U -Dti_sysbios_family_arm_m3_Hwi_numSparseInterrupts__D=0U
XDC_ROOT = C:/ti/xdctools_3_32_00_06_core/packages/
XDC_ROOT = C:/ti/xdctools_3_32_02_25_core/packages/
BIOS_ROOT = C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/ti/sysbios/
@@ -16,14 +16,14 @@ BIOS_INC = -I"C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/pa
TARGET_INC = -I"C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/"
INCS = $(BIOS_INC) $(TARGET_INC) --include_path="C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/include" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/examples/simple_peripheral/cc26xx/app/headstage" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/examples/simple_peripheral/cc26xx/app" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/icall/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/roles/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/roles" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/dev_info" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/simple_profile/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/simple_profile" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/common/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/heapmgr" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/controller/cc26xx/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/target/_common" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/target" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/target/_common/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/osal/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/services/src/sdata" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/services/src/saddr" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/icall/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/rom" --include_path="C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/cc26xxware_2_24_03_17272" -IC:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/
INCS = $(BIOS_INC) $(TARGET_INC) --include_path="C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/include" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/examples/simple_peripheral/cc26xx/app/headstage" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/examples/simple_peripheral/cc26xx/app" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/icall/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/roles/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/roles" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/dev_info" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/simple_profile/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/profiles/simple_profile" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/common/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/heapmgr" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/controller/cc26xx/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/target/_common" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/target" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/target/_common/cc26xx" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/hal/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/osal/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/services/src/sdata" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/services/src/saddr" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/components/icall/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/inc" --include_path="C:/ti/simplelink/ble_sdk_2_02_02_25/src/rom" --include_path="C:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/cc26xxware_2_24_03_17272" -IC:/ti/tirtos_cc13xx_cc26xx_2_21_01_08/products/bios_6_46_01_38/packages/
CC = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/bin/armcl -c $(CCOPTS) -I C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/include
ASM = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/bin/armcl -c $(CCOPTS) -I C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/include
AR = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.4.LTS/bin/armar rq
CC = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/bin/armcl -c $(CCOPTS) -I C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/include
ASM = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/bin/armcl -c $(CCOPTS) -I C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/include
AR = C:/ti/ccsv8/tools/compiler/ti-cgt-arm_18.1.3.LTS/bin/armar rq
DEL = C:/ti/xdctools_3_32_00_06_core/packages/../bin/rm -f
CP = C:/ti/xdctools_3_32_00_06_core/packages/../bin/cp -f
DEL = C:/ti/xdctools_3_32_02_25_core/packages/../bin/rm -f
CP = C:/ti/xdctools_3_32_02_25_core/packages/../bin/cp -f
define RM
$(if $(wildcard $1),$(DEL) $1,:)
@@ -133,19 +133,17 @@ static void update_latch_status (uint32_t latch_num, uint32_t elite_pin, bool hi
}
static void PIN15_setOutputValue (uint32_t latch_num, uint32_t pin_num, bool highlow) {
if(PeriodicEvent){
ELITE15_SPI_CLOSE();
}
ELITE15_SPI_CLOSE();
add_elite_pin();
update_latch_status (latch_num, pin_num, highlow);
PIN_setOutputValue(&ZM_rst, latch_num, 1); // Turn on latch
CPUdelay(10);
// PIN_setOutputValue(&ZM_rst, latch_num, 1); // Turn on latch
switch (latch_num) {
case LOAD0: {
// PIN_setOutputValue(&ZM_rst, D0, LH.LATCH0[0]);
// PIN_setOutputValue(&ZM_rst, D1, LH.LATCH0[1]);
// PIN_setOutputValue(&ZM_rst, D2, LH.LATCH0[2]);
// PIN_setOutputValue(&ZM_rst, D3, LH.LATCH0[3]);
PIN_setOutputValue(&ZM_rst, D0, LH.LATCH0[0]);
PIN_setOutputValue(&ZM_rst, D1, LH.LATCH0[1]);
PIN_setOutputValue(&ZM_rst, D2, LH.LATCH0[2]);
PIN_setOutputValue(&ZM_rst, D3, LH.LATCH0[3]);
PIN_setOutputValue(pin_handle, D4, LH.LATCH0[4]);
PIN_setOutputValue(pin_handle, D5, LH.LATCH0[5]);
PIN_setOutputValue(pin_handle, D6, LH.LATCH0[6]);
@@ -178,23 +176,17 @@ static void PIN15_setOutputValue (uint32_t latch_num, uint32_t pin_num, bool hig
break;
}
}
PIN_setOutputValue(&ZM_rst, latch_num, 1); // Turn on latch
CPUdelay(10);
PIN_setOutputValue(&ZM_rst, latch_num, 0); // Turn off latch
remove_elite_pin();
if(PeriodicEvent){
ELITE15_SPI_HOLD();
}
ELITE15_SPI_HOLD();
}
static void Init_Elite15_PIN () {
InitLH();
add_elite_pin();
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, LOAD1, 1);
PIN_setOutputValue(pin_handle, LOAD2, 1);
CPUdelay(10);
PIN_setOutputValue(pin_handle, D0, 0);
PIN_setOutputValue(pin_handle, D1, 0);
PIN_setOutputValue(pin_handle, D2, 0);
@@ -203,12 +195,49 @@ static void Init_Elite15_PIN () {
PIN_setOutputValue(pin_handle, D5, 0);
PIN_setOutputValue(pin_handle, D6, 0);
PIN_setOutputValue(pin_handle, D7, 0);
CPUdelay(10);
PIN_setOutputValue(pin_handle, LOAD0, 0);
PIN_setOutputValue(pin_handle, LOAD1, 1);
PIN_setOutputValue(pin_handle, LOAD2, 1);
CPUdelay(10);
PIN_setOutputValue(pin_handle, LOAD1, 0);
PIN_setOutputValue(pin_handle, LOAD2, 0);
PIN_setOutputValue(pin_handle, D0, 0);
PIN_setOutputValue(pin_handle, D1, 0);
PIN_setOutputValue(pin_handle, D2, 0);
PIN_setOutputValue(pin_handle, D3, 0);
PIN_setOutputValue(pin_handle, D4, 1);
PIN_setOutputValue(pin_handle, D5, 1);
PIN_setOutputValue(pin_handle, D6, 1);
PIN_setOutputValue(pin_handle, D7, 1);
CPUdelay(10);
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, LOAD0, 0);
remove_elite_pin();
// InitLH();
// add_elite_pin();
//
// PIN_setOutputValue(pin_handle, LOAD0, 1);
// PIN_setOutputValue(pin_handle, LOAD1, 1);
// PIN_setOutputValue(pin_handle, LOAD2, 1);
// CPUdelay(10);
// PIN_setOutputValue(pin_handle, D0, 0);
// PIN_setOutputValue(pin_handle, D1, 0);
// PIN_setOutputValue(pin_handle, D2, 0);
// PIN_setOutputValue(pin_handle, D3, 0);
// PIN_setOutputValue(pin_handle, D4, 0);
// PIN_setOutputValue(pin_handle, D5, 0);
// PIN_setOutputValue(pin_handle, D6, 0);
// PIN_setOutputValue(pin_handle, D7, 0);
// CPUdelay(10);
// PIN_setOutputValue(pin_handle, LOAD0, 0);
// PIN_setOutputValue(pin_handle, LOAD1, 0);
// PIN_setOutputValue(pin_handle, LOAD2, 0);
//
// remove_elite_pin();
}
@@ -19,6 +19,11 @@
#define ADC_CH_DAC 0x02
#define ADC_CH_BAT 0x03
#define GPIO_CH_0 0x00
#define GPIO_CH_1 0x01
#define GPIO_CH_2 0x02
#define GPIO_CH_3 0x03
static void ADC_write(uint8_t ADCin) {
/*
* This function can only define [15]~[8] through ADCin
@@ -46,11 +51,7 @@ static void ADC_write(uint8_t ADCin) {
spi_ADC_txbuf[0] = ADCin;
spi_ADC_txbuf[1] = 0b11101011;
if(PeriodicEvent){
ADC_SPI_TEST(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}else{
ADC_SPI(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}
ADC_SPI(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}
static void ADC_read(uint8_t *ADCdata){
@@ -59,11 +60,7 @@ static void ADC_read(uint8_t *ADCdata){
spi_ADC_rxbuf[i] = 0;
}
if(PeriodicEvent){
ADC_SPI_TEST(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}else{
ADC_SPI(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}
ADC_SPI(2, spi_ADC_txbuf, spi_ADC_rxbuf);
}
/* Elite1.5 Calibration Usage */
@@ -246,12 +243,20 @@ static void ReadADCBat(uint8_t *buf){
/* for Elite1.5-re */
// Iin theoretical boundary <2.67, 1.89~80, 63~2600, >1900 (uA)
/* Old boundary
#define I_GAIN_SMALL_BOUNDARY 4000 // 4 uA = 4,000,000 pA
#define I_GAIN_MID1_BOUNDARY1 2000 // 2 uA = 2,000,000 pA
#define I_GAIN_MID1_BOUNDARY2 90000 // 90 uA = 90,000,000 pA
#define I_GAIN_MID2_BOUNDARY1 70000 // 70 uA = 70,000,000 pA
#define I_GAIN_MID2_BOUNDARY2 1800000 // 1800 uA = 1,800,000 nA
#define I_GAIN_LARGE_BOUNDARY 950000 // 950 uA = 950,000 nA
*/
#define I_GAIN_SMALL_BOUNDARY 4000 // 4 uA = 4,000,000 pA
#define I_GAIN_MID1_BOUNDARY1 2500 // 2.5 uA = 2,500,000 pA
#define I_GAIN_MID1_BOUNDARY2 100000 // 100 uA = 100,000,000 pA
#define I_GAIN_MID2_BOUNDARY1 85000 // 85 uA = 85,000,000 pA
#define I_GAIN_MID2_BOUNDARY2 2050000 // 2050 uA = 2,050,000 nA
#define I_GAIN_LARGE_BOUNDARY 1800000 // 1800 uA = 1,800,000 nA
// Vin theoretical boundary <7, 5~200, >100 (mV)
#define VIN_GAIN_SMALL_BOUNDARY 7000 // 7 mV = 7,000,000 nV
@@ -603,4 +608,46 @@ static uint16_t ADC_CURRENT_AVG_calibration (uint8_t ADC_channel) {
return ADCValueAVG_RAW;
}
/* Test Elite TRIG01 function on Meagfly hardware */
static void GPIO_SPI_write(uint8_t GPIO_channel, uint16_t GPIOin) {
uint32_t TW_CH_0 [2] = {TW_SCKI_0};
uint32_t TW_CH_1 [2] = {TW_SCKI_1};
uint32_t TW_CH_2 [2] = {TW_SCKI_2};
uint32_t TW_CH_3 [2] = {TW_SCKI_3};
uint32_t CLK_CH[2] = {0};
spi_GPIO_txbuf = 0;
switch (GPIO_channel) { // channel select
case GPIO_CH_0: {
CLK_CH[0] = TW_CH_0[0];
CLK_CH[1] = TW_CH_0[1];
break;
}
case GPIO_CH_1: {
CLK_CH[0] = TW_CH_1[0];
CLK_CH[1] = TW_CH_1[1];
break;
}
case GPIO_CH_2: {
CLK_CH[0] = TW_CH_2[0];
CLK_CH[1] = TW_CH_2[1];
break;
}
case GPIO_CH_3: {
CLK_CH[0] = TW_CH_3[0];
CLK_CH[1] = TW_CH_3[1];
break;
}
default: {
break;
}
}
spi_GPIO_txbuf = GPIOin;
GPIO_SPI_transfer(CLK_CH, spi_GPIO_txbuf);
}
#endif
@@ -210,7 +210,6 @@ static void CV_Vscan(CVMode *CV){
/*stop condition*/
if(CV->_cycleNumber == 0){
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}
}
@@ -51,11 +51,7 @@ static uint16_t DAC_outputV(uint16_t voltLV) {
spi_DACtxbuf[1] = v1;
spi_DACtxbuf[2] = v2;
if(PeriodicEvent){
DAC_SPI_TEST(SPI_DAC_SIZE, spi_DACtxbuf, spi_rxbuf);
}else{
DAC_SPI(SPI_DAC_SIZE, spi_DACtxbuf, spi_rxbuf);
}
DAC_SPI(SPI_DAC_SIZE, spi_DACtxbuf, spi_rxbuf);
return voltLV;
}
@@ -88,16 +84,20 @@ static int32_t User2Real(uint16_t UserCode){
// DAC Vout theoretical boundary <300, 100~ (mV)
#define DAC_VOUT_GAIN_SMALL_BOUNDARY 100000 // 100 mV = 25500(usercode)
#define DAC_VOUT_GAIN_LARGE_BOUNDARY 300000 // 300 mV = 26500(usercode)
#define DAC_VOUT_GAIN_SMALL_BOUNDARY 100000 // 25500(usercode) = 100 mV
#define DAC_VOUT_GAIN_LARGE_BOUNDARY 300000 // 26500(usercode) = 300 mV
#define DAC_VOUT_GAIN_LARGE_BOUNDARY_USERCODE 26500 // 26500(usercode) = 300 mV
#define DAC_VOUT_GAIN_LARGE_BOUNDARY1_USERCODE 23500 // 23500(usercode) = -300 mV
static void AutoGainChangeVout(int32_t RealVolt){
RealVolt = (RealVolt - 25000) * 200; // (RealVolt - 25000) / 5 * 1000
static void AutoGainChangeVout(int32_t userCode){
int32_t RealVolt = (userCode - 25000) * 200; // (userCode - 25000) / 5 * 1000 [1uV]
// switch to 1 level volt(small) 15K
// switch to 2 level volt(large) 240K
if(INSTRUCTION.VoutGainLevel == VOUT_GAIN_AUTO){
INSTRUCTION.VoutGainLevel = VOUT_GAIN_15K;
VoutGainControl(INSTRUCTION.VoutGainLevel);
record_flag = false;
}
if(INSTRUCTION.VoutGainLevel == VOUT_GAIN_15K){
@@ -29,7 +29,7 @@
*/
#define BOARD_C6D4
#define BOARD_C7A1
typedef struct _formula{
@@ -46,10 +46,11 @@ struct _correction{
uint16_t Gain0Boundary[2];
uint16_t Gain1Boundary[4];
uint16_t Gain2Boundary[2];
uint16_t Usercode2DAC15v;
} Correction =
#ifdef BOARD_C6E1
#ifdef BOARD_C6E1 //not well
{
.ADC_volt[0].coeff = (-6251051),
.ADC_volt[0].offset = 102081366120,
@@ -77,41 +78,45 @@ struct _correction{
.Usercode2DAC[1].coeff = (-10511469),
.Usercode2DAC[1].offset = 563770560100,
.Usercode2DAC15v = MEGA_15V,
};
#endif
#ifdef BOARD_C7A1
{
.ADC_volt[0].coeff = (6204),
.ADC_volt[0].offset = -100237253,
.ADC_volt[0].coeff = (6256),
.ADC_volt[0].offset = -101532028,
.ADC_volt[1].coeff = (214511),
.ADC_volt[1].offset = -3485722036,
.ADC_volt[1].coeff = (215138),
.ADC_volt[1].offset = -3501890770,
.ADC_volt[2].coeff = (6213224),
.ADC_volt[2].offset = -101104189300,
.ADC_volt[2].coeff = (6245014),
.ADC_volt[2].offset = -101751226981,
.ADC_current[0].coeff = 2078892,
.ADC_current[0].offset = (-33685110900),
.ADC_current[0].coeff = 3125920,
.ADC_current[0].offset = (-50880328288),
.ADC_current[1].coeff = 64769469,
.ADC_current[1].offset = (-1048938859469),
.ADC_current[1].coeff = 71636129,
.ADC_current[1].offset = (-1166093783868),
.ADC_current[2].coeff = 2090182091,
.ADC_current[2].offset = (-33847893234994),
.ADC_current[2].coeff = 1459555637,
.ADC_current[2].offset = (-23757721396024),
.ADC_current[3].coeff = 60030468992,
.ADC_current[3].offset = (-972275155887907),
.ADC_current[3].coeff = 30723232882,
.ADC_current[3].offset = (-500144809348170),
.Usercode2DAC[0].coeff = (-10512772),
.Usercode2DAC[0].offset = 581302323013,
.Usercode2DAC[0].coeff = (-10543817),
.Usercode2DAC[0].offset = 583163641972,
.Usercode2DAC[1].coeff = (-178991273),
.Usercode2DAC[1].offset = 4794464882260,
.Usercode2DAC[1].coeff = (-178077711),
.Usercode2DAC[1].offset = 4777894559527,
.Usercode2DAC15v = 41485,
};
#endif
#ifdef BOARD_C6D4
#ifdef BOARD_C6D4 //not well
{
.ADC_volt[0].coeff = (6226),
.ADC_volt[0].offset = -100075170,
@@ -139,6 +144,107 @@ struct _correction{
.Usercode2DAC[1].coeff = (-178746005),
.Usercode2DAC[1].offset = 4789272862069,
.Usercode2DAC15v = MEGA_15V,
};
#endif
#ifdef BOARD_C771 //not well
{
.ADC_volt[0].coeff = (6301),
.ADC_volt[0].offset = -102184705,
.ADC_volt[1].coeff = (216877),
.ADC_volt[1].offset = -3519583281,
.ADC_volt[2].coeff = (6298448),
.ADC_volt[2].offset = -102304286091,
.ADC_current[0].coeff = 3115431,
.ADC_current[0].offset = (-50586460394),
.ADC_current[1].coeff = 71203612,
.ADC_current[1].offset = (-1156022105141),
.ADC_current[2].coeff = 1451318434,
.ADC_current[2].offset = (-23560731221983),
.ADC_current[3].coeff = 30518004246,
.ADC_current[3].offset = (-495456618814855),
.Usercode2DAC[0].coeff = (-10568719),
.Usercode2DAC[0].offset = 585036272447,
.Usercode2DAC[1].coeff = (-179441058),
.Usercode2DAC[1].offset = 4807380622351,
.Usercode2DAC15v = MEGA_15V,
};
#endif
#ifdef BOARD_C724
{
.ADC_volt[0].coeff = (6251),
.ADC_volt[0].offset = -99750397,
.ADC_volt[1].coeff = (214419),
.ADC_volt[1].offset = -3491659841,
.ADC_volt[2].coeff = (6227737),
.ADC_volt[2].offset = -101557618268,
.ADC_current[0].coeff = 3138613,
.ADC_current[0].offset = (-51149570420),
.ADC_current[1].coeff = 71715555,
.ADC_current[1].offset = (-1168777305352),
.ADC_current[2].coeff = 1455501991,
.ADC_current[2].offset = (-23719715469357),
.ADC_current[3].coeff = 30688298312,
.ADC_current[3].offset = (-500150163983795),
.Usercode2DAC[0].coeff = (-10540182),
.Usercode2DAC[0].offset = 584459109821,
.Usercode2DAC[1].coeff = (-179175265),
.Usercode2DAC[1].offset = 4801179734836,
.Usercode2DAC15v = MEGA_15V,
};
#endif
#ifdef BOARD_C874
{
.ADC_volt[0].coeff = (6260),
.ADC_volt[0].offset = -99787811,
.ADC_volt[1].coeff = (214494),
.ADC_volt[1].offset = -3492178752,
.ADC_volt[2].coeff = (6231057),
.ADC_volt[2].offset = -101591914655,
.ADC_current[0].coeff = 3148251,
.ADC_current[0].offset = (-51277675282),
.ADC_current[1].coeff = 71859885,
.ADC_current[1].offset = (-1170556644217),
.ADC_current[2].coeff = 1462458824,
.ADC_current[2].offset = (-23822062635236),
.ADC_current[3].coeff = 30748473913,
.ADC_current[3].offset = (-500860829105930),
.Usercode2DAC[0].coeff = (-10570366),
.Usercode2DAC[0].offset = 585189864243,
.Usercode2DAC[1].coeff = (-178920333),
.Usercode2DAC[1].offset = 4794801719146,
.Usercode2DAC15v = 41355,
};
#endif
@@ -259,8 +365,6 @@ static void ADC_overflow(uint8_t gain, uint8_t *rawdata){
// this function should turn 0~50000 into DACcode which output the exactly voltage user want
static uint16_t Usercode_Correction_to_DAC(uint8_t DACGain, uint16_t usercode)
{
AutoGainChangeVout(usercode);
long long usercode_32;
uint16_t DACcode = 0;
@@ -22,6 +22,11 @@ struct _GPT{
uint32_t BatteryADCCounter;
uint32_t BatteryCheckCounter;
uint32_t GptimerMultiple;
uint32_t StiCounter;
uint32_t LedGCounter;
uint32_t LedRCounter;
uint32_t Gas0Counter;
uint32_t Gas1Counter;
}GPT = {0};
static void InitCT(){
@@ -41,5 +46,10 @@ static void InitGPT(){
GPT.LeadTimeCounter = 0;
GPT.BatteryADCCounter = 0;
GPT.BatteryCheckCounter = 0;
GPT.StiCounter = 0;
GPT.LedGCounter = 0;
GPT.LedRCounter = 0;
GPT.Gas0Counter = 0;
GPT.Gas1Counter = 0;
}
#endif
@@ -28,13 +28,11 @@ static void IV_Vscan(IVMode *IV){
if(IV->_current_direction_up){
if(Vset >= IV->_Vmax){
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}
}else{
if(Vset <= IV->_Vmin){
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}
}
@@ -75,6 +75,90 @@ struct HEADSTAGE_INSTRUCTION {
uint8_t charge;
int32_t constantCurrent;
int32_t Currentmax;
int32_t sti_v1;
int32_t sti_v2;
int32_t sti_v3;
int32_t sti_v4;
int32_t sti_v5;
int32_t sti_v6;
int32_t sti_v7;
int32_t sti_t1;
int32_t sti_t2;
int32_t sti_t3;
int32_t sti_t4;
int32_t sti_t5;
int32_t sti_t6;
int32_t sti_t7;
uint16_t sti_cy;
uint16_t sti_loop;
uint8_t ledG_sw1;
uint8_t ledG_sw2;
uint8_t ledG_sw3;
uint8_t ledG_sw4;
uint8_t ledG_sw5;
uint8_t ledG_sw6;
uint8_t ledG_sw7;
int32_t ledG_t1;
int32_t ledG_t2;
int32_t ledG_t3;
int32_t ledG_t4;
int32_t ledG_t5;
int32_t ledG_t6;
int32_t ledG_t7;
uint16_t ledG_cy;
uint16_t ledG_loop;
uint8_t ledR_sw1;
uint8_t ledR_sw2;
uint8_t ledR_sw3;
uint8_t ledR_sw4;
uint8_t ledR_sw5;
uint8_t ledR_sw6;
uint8_t ledR_sw7;
int32_t ledR_t1;
int32_t ledR_t2;
int32_t ledR_t3;
int32_t ledR_t4;
int32_t ledR_t5;
int32_t ledR_t6;
int32_t ledR_t7;
uint16_t ledR_cy;
uint16_t ledR_loop;
uint8_t gas0_sw1;
uint8_t gas0_sw2;
uint8_t gas0_sw3;
uint8_t gas0_sw4;
uint8_t gas0_sw5;
uint8_t gas0_sw6;
uint8_t gas0_sw7;
int32_t gas0_t1;
int32_t gas0_t2;
int32_t gas0_t3;
int32_t gas0_t4;
int32_t gas0_t5;
int32_t gas0_t6;
int32_t gas0_t7;
uint16_t gas0_cy;
uint16_t gas0_loop;
uint8_t gas1_sw1;
uint8_t gas1_sw2;
uint8_t gas1_sw3;
uint8_t gas1_sw4;
uint8_t gas1_sw5;
uint8_t gas1_sw6;
uint8_t gas1_sw7;
int32_t gas1_t1;
int32_t gas1_t2;
int32_t gas1_t3;
int32_t gas1_t4;
int32_t gas1_t5;
int32_t gas1_t6;
int32_t gas1_t7;
uint16_t gas1_cy;
uint16_t gas1_loop;
uint16_t StepTime;
@@ -121,5 +205,91 @@ static void InitEliteInstruction(){
INSTRUCTION.Currentmax = 0;
INSTRUCTION.StepTime = STEPTIME_ONE_SEC;
INSTRUCTION.AdcChannel = 0;
//pulse mode
INSTRUCTION.sti_t1 = 0;
INSTRUCTION.sti_t2 = 0;
INSTRUCTION.sti_t3 = 0;
INSTRUCTION.sti_t4 = 0;
INSTRUCTION.sti_t5 = 0;
INSTRUCTION.sti_t6 = 0;
INSTRUCTION.sti_t7 = 0;
INSTRUCTION.sti_v1 = DAC_ZERO;
INSTRUCTION.sti_v2 = DAC_ZERO;
INSTRUCTION.sti_v3 = DAC_ZERO;
INSTRUCTION.sti_v4 = DAC_ZERO;
INSTRUCTION.sti_v5 = DAC_ZERO;
INSTRUCTION.sti_v6 = DAC_ZERO;
INSTRUCTION.sti_v7 = DAC_ZERO;
INSTRUCTION.sti_loop = 1;
INSTRUCTION.sti_cy = 0;
INSTRUCTION.ledG_sw1 = false;
INSTRUCTION.ledG_sw2 = false;
INSTRUCTION.ledG_sw3 = false;
INSTRUCTION.ledG_sw4 = false;
INSTRUCTION.ledG_sw5 = false;
INSTRUCTION.ledG_sw6 = false;
INSTRUCTION.ledG_sw7 = false;
INSTRUCTION.ledG_t1 = 0;
INSTRUCTION.ledG_t2 = 0;
INSTRUCTION.ledG_t3 = 0;
INSTRUCTION.ledG_t4 = 0;
INSTRUCTION.ledG_t5 = 0;
INSTRUCTION.ledG_t6 = 0;
INSTRUCTION.ledG_t7 = 0;
INSTRUCTION.ledG_cy = 0;
INSTRUCTION.ledG_loop = 0;
INSTRUCTION.ledR_sw1 = false;
INSTRUCTION.ledR_sw2 = false;
INSTRUCTION.ledR_sw3 = false;
INSTRUCTION.ledR_sw4 = false;
INSTRUCTION.ledR_sw5 = false;
INSTRUCTION.ledR_sw6 = false;
INSTRUCTION.ledR_sw7 = false;
INSTRUCTION.ledR_t1 = 0;
INSTRUCTION.ledR_t2 = 0;
INSTRUCTION.ledR_t3 = 0;
INSTRUCTION.ledR_t4 = 0;
INSTRUCTION.ledR_t5 = 0;
INSTRUCTION.ledR_t6 = 0;
INSTRUCTION.ledR_t7 = 0;
INSTRUCTION.ledR_cy = 0;
INSTRUCTION.ledR_loop = 0;
INSTRUCTION.gas0_sw1 = false;
INSTRUCTION.gas0_sw2 = false;
INSTRUCTION.gas0_sw3 = false;
INSTRUCTION.gas0_sw4 = false;
INSTRUCTION.gas0_sw5 = false;
INSTRUCTION.gas0_sw6 = false;
INSTRUCTION.gas0_sw7 = false;
INSTRUCTION.gas0_t1 = 0;
INSTRUCTION.gas0_t2 = 0;
INSTRUCTION.gas0_t3 = 0;
INSTRUCTION.gas0_t4 = 0;
INSTRUCTION.gas0_t5 = 0;
INSTRUCTION.gas0_t6 = 0;
INSTRUCTION.gas0_t7 = 0;
INSTRUCTION.gas0_cy = 0;
INSTRUCTION.gas0_loop = 0;
INSTRUCTION.gas1_sw1 = false;
INSTRUCTION.gas1_sw2 = false;
INSTRUCTION.gas1_sw3 = false;
INSTRUCTION.gas1_sw4 = false;
INSTRUCTION.gas1_sw5 = false;
INSTRUCTION.gas1_sw6 = false;
INSTRUCTION.gas1_sw7 = false;
INSTRUCTION.gas1_t1 = 0;
INSTRUCTION.gas1_t2 = 0;
INSTRUCTION.gas1_t3 = 0;
INSTRUCTION.gas1_t4 = 0;
INSTRUCTION.gas1_t5 = 0;
INSTRUCTION.gas1_t6 = 0;
INSTRUCTION.gas1_t7 = 0;
INSTRUCTION.gas1_cy = 0;
INSTRUCTION.gas1_loop = 0;
}
#endif
@@ -5,24 +5,32 @@
#define DARKLED 0xE1
#define LIGHTLED 0xE8
/* Channels for TRIG01 LED notation */
#define LED_PR0 0x00
#define LED_D0 0x01
#define LED_A0 0x02
#define LED_A2 0x03
#define LED_A3 0x04
#define LED_A1 0x05
#define LED_D1 0x06
#define LED_PR1 0x07
static void WorkModeLED();
static void update_LED_status (uint8_t chan, uint8_t bright, uint8_t red, uint8_t green, uint8_t blue);
static void LED_color(uint8_t bright, uint8_t red, uint8_t green, uint8_t blue) {
spi_LEDtxbuf[0] = 0x0000;
spi_LEDtxbuf[1] = 0x0000;
for (int i = 2; i < SPI_LED_SIZE - 2; i += 2) {
spi_LEDtxbuf[i] = 0xE000 | ((uint16_t)bright << 8) | blue;
spi_LEDtxbuf[i + 1] = ((uint16_t)green << 8) | red;
}
spi_LEDtxbuf[SPI_LED_SIZE - 2] = 0xffff;
spi_LEDtxbuf[SPI_LED_SIZE - 1] = 0xffff;
if(PeriodicEvent){
LED_SPI_TEST(SPI_LED_SIZE, spi_LEDtxbuf, spi_LEDrxbuf);
}else{
LED_SPI(SPI_LED_SIZE, spi_LEDtxbuf, spi_LEDrxbuf);
}
// spi_LEDtxbuf[0] = 0x0000;
// spi_LEDtxbuf[1] = 0x0000;
//
// for (int i = 2; i < SPI_LED_SIZE - 2; i += 2) {
// spi_LEDtxbuf[i] = 0xE000 | ((uint16_t)bright << 8) | blue;
// spi_LEDtxbuf[i + 1] = ((uint16_t)green << 8) | red;
// }
//
// spi_LEDtxbuf[SPI_LED_SIZE - 2] = 0xffff;
// spi_LEDtxbuf[SPI_LED_SIZE - 1] = 0xffff;
//
// LED_SPI(SPI_LED_SIZE, spi_LEDtxbuf, spi_LEDrxbuf);
}
@@ -153,6 +161,11 @@ static void WorkModeLED() {
WORKLED();
break;
}
case PULSE_MODE:{
// Elite_led_color(COLOR_YELLOW);
WORKLED();
break;
}
case CONSTANT_CURRENT:{
WORKLED();
break;
@@ -177,4 +190,90 @@ static void WorkModeLED() {
}
}
static void LED_channel_write(uint8_t chan, uint8_t bright, uint8_t red, uint8_t green, uint8_t blue) {
update_LED_status(chan, bright, red, green, blue);
spi_LEDtxbuf[0] = 0x0000;
spi_LEDtxbuf[1] = 0x0000;
for (int i = 2; i < SPI_LED_SIZE - 2; i += 2) {
spi_LEDtxbuf[i] = LED.LED_buf[i];
spi_LEDtxbuf[i+1] = LED.LED_buf[i+1];
}
spi_LEDtxbuf[SPI_LED_SIZE - 2] = 0xffff;
spi_LEDtxbuf[SPI_LED_SIZE - 1] = 0xffff;
LED_SPI(SPI_LED_SIZE, spi_LEDtxbuf, spi_LEDrxbuf);
}
static void update_LED_status (uint8_t chan, uint8_t bright, uint8_t red, uint8_t green, uint8_t blue) {
switch(chan) {
case LED_PR0: {
LED.LED_buf[2] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[3] = ((uint16_t)green << 8) | red;
break;
}
case LED_D0: {
LED.LED_buf[4] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[5] = ((uint16_t)green << 8) | red;
break;
}
case LED_A0: {
LED.LED_buf[6] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[7] = ((uint16_t)green << 8) | red;
break;
}
case LED_A2: {
LED.LED_buf[8] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[9] = ((uint16_t)green << 8) | red;
break;
}
case LED_A3: {
LED.LED_buf[10] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[11] = ((uint16_t)green << 8) | red;
break;
}
case LED_A1: {
LED.LED_buf[12] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[13] = ((uint16_t)green << 8) | red;
break;
}
case LED_D1: {
LED.LED_buf[14] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[15] = ((uint16_t)green << 8) | red;
break;
}
case LED_PR1: {
LED.LED_buf[16] = 0xE000 | ((uint16_t)bright << 8) | blue;
LED.LED_buf[17] = ((uint16_t)green << 8) | red;
break;
}
default: {
break;
}
}
}
static void TRIG0_LED_Init() {
spi_LEDtxbuf[0] = 0x0000;
spi_LEDtxbuf[1] = 0x0000;
for (int i = 2; i < SPI_LED_SIZE - 2; i += 2) {
spi_LEDtxbuf[i] = 0xE000;
spi_LEDtxbuf[i+1] = 0x0000;
}
spi_LEDtxbuf[SPI_LED_SIZE - 2] = 0xffff;
spi_LEDtxbuf[SPI_LED_SIZE - 1] = 0xffff;
LED_SPI(SPI_LED_SIZE, spi_LEDtxbuf, spi_LEDrxbuf);
}
#endif
@@ -0,0 +1,14 @@
#ifndef ELITE_LED_INIT
#define ELITE_LED_INIT
static void InitLED() {
for (int i = 2; i < SPI_LED_SIZE - 2; i += 2) {
LED.LED_buf[i] = 0xE000;
LED.LED_buf[i+1] = 0x0000;
}
}
#endif
@@ -0,0 +1,528 @@
#ifndef ELITEPULSE
#define ELITEPULSE
#define Vset INSTRUCTION.Vset
static void PULSE_Vscan(PULSEMode *PULSE)
{
static uint16_t lastVolt;
static uint16_t testV;
if (stiFirstTime) {
stiFirstTime = false;
lastVolt = 25000;
PULSE->_sti_t_flag = 1;
PULSE->_sti_v = PULSE->_sti_v1;
PULSE->_sti_t = PULSE->_sti_t1;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else if(!stiFirstTime) {
if (GPT.StiCounter >= PULSE->_sti_t) {
GPT.StiCounter -= PULSE->_sti_t; //to get right time
if (PULSE->_sti_lp > 0) {
if (PULSE->_sti_cy > 0) {
if (PULSE->_sti_t_flag == 1) {
PULSE->_sti_t_flag = 2;
PULSE->_sti_v = PULSE->_sti_v2;
PULSE->_sti_t = PULSE->_sti_t2;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else if (PULSE->_sti_t_flag == 2) {
PULSE->_sti_t_flag = 3;
PULSE->_sti_v = PULSE->_sti_v3;
PULSE->_sti_t = PULSE->_sti_t3;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else if (PULSE->_sti_t_flag == 3) {
PULSE->_sti_cy -- ;
if (PULSE->_sti_cy == 0) {
PULSE->_sti_t_flag = 4;
PULSE->_sti_v = PULSE->_sti_v4;
PULSE->_sti_t = PULSE->_sti_t4;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else {
PULSE->_sti_t_flag = 2;
PULSE->_sti_v = PULSE->_sti_v2;
PULSE->_sti_t = PULSE->_sti_t2;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
}
}
} else if (PULSE->_sti_cy <= 0){
if (PULSE->_sti_t_flag == 4) {
PULSE->_sti_lp -- ;
if (PULSE->_sti_lp > 0) {
PULSE->_sti_cy = INSTRUCTION.sti_cy;
PULSE->_sti_t_flag = 2;
PULSE->_sti_v = PULSE->_sti_v2;
PULSE->_sti_t = PULSE->_sti_t2;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else {
PULSE->_sti_t_flag = 5;
PULSE->_sti_v = PULSE->_sti_v5;
PULSE->_sti_t = PULSE->_sti_t5;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
}
}
}
} else if (PULSE->_sti_lp <= 0) {
if (PULSE->_sti_t_flag == 5) {
PULSE->_sti_t_flag = 6;
PULSE->_sti_v = PULSE->_sti_v6;
PULSE->_sti_t = PULSE->_sti_t6;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else if (PULSE->_sti_t_flag == 6) {
PULSE->_sti_t_flag = 7;
PULSE->_sti_v = PULSE->_sti_v7;
PULSE->_sti_t = PULSE->_sti_t7;
if (PULSE->_sti_t == 1) {
PULSE->_sti_v = lastVolt;
}
} else if (PULSE->_sti_t_flag == 7) {
PULSE->_sti_v = 25000;
PeriodicEvent = false;
megaTrigEnable = false;
ModeLED(NO_EVENT);
}
}
}
}
//InputNotify(NOTIFY_IMPEDANCE, testV);
if (lastVolt != PULSE->_sti_v) {
lastVolt = PULSE->_sti_v;
//if (PULSE->_sti_v == 25000) {
// PIN15_setOutputValue(HIGH_Z_MODE, 0); // 1 => close high_z mode
//} else {
// PIN15_setOutputValue(HIGH_Z_MODE, 1); // 1 => close high_z mode
//}
DAC_outputV(Usercode_Correction_to_DAC(VOUT_GAIN_240K, PULSE->_sti_v));
DAC_outputV(Usercode_Correction_to_DAC(VOUT_GAIN_240K, PULSE->_sti_v));
}
}
static void PULSE_ledG(PULSEMode *PULSE)
{
static bool lastSwitch;
if (ledGFirstTime) {
ledGFirstTime = false;
lastSwitch = false;
PULSE->_ledG_t_flag = 1;
PULSE->_ledG_sw = PULSE->_ledG_sw1;
PULSE->_ledG_t = PULSE->_ledG_t1;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else if(!ledGFirstTime) {
if (GPT.LedGCounter >= PULSE->_ledG_t) {
GPT.LedGCounter -= PULSE->_ledG_t; //to get right time
if (PULSE->_ledG_lp > 0) {
if (PULSE->_ledG_cy > 0) {
if (PULSE->_ledG_t_flag == 1) {
PULSE->_ledG_t_flag = 2;
PULSE->_ledG_sw = PULSE->_ledG_sw2;
PULSE->_ledG_t = PULSE->_ledG_t2;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else if (PULSE->_ledG_t_flag == 2) {
PULSE->_ledG_t_flag = 3;
PULSE->_ledG_sw = PULSE->_ledG_sw3;
PULSE->_ledG_t = PULSE->_ledG_t3;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else if (PULSE->_ledG_t_flag == 3) {
PULSE->_ledG_cy -- ;
if (PULSE->_ledG_cy == 0) {
PULSE->_ledG_t_flag = 4;
PULSE->_ledG_sw = PULSE->_ledG_sw4;
PULSE->_ledG_t = PULSE->_ledG_t4;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else {
PULSE->_ledG_t_flag = 2;
PULSE->_ledG_sw = PULSE->_ledG_sw2;
PULSE->_ledG_t = PULSE->_ledG_t2;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
}
}
} else if (PULSE->_ledG_cy <= 0){
if (PULSE->_ledG_t_flag == 4) {
PULSE->_ledG_lp -- ;
if (PULSE->_ledG_lp > 0) {
PULSE->_ledG_cy = INSTRUCTION.ledG_cy;
PULSE->_ledG_t_flag = 2;
PULSE->_ledG_sw = PULSE->_ledG_sw2;
PULSE->_ledG_t = PULSE->_ledG_t2;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else {
PULSE->_ledG_t_flag = 5;
PULSE->_ledG_sw = PULSE->_ledG_sw5;
PULSE->_ledG_t = PULSE->_ledG_t5;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
}
}
}
} else if (PULSE->_ledG_lp <= 0) {
if (PULSE->_ledG_t_flag == 5) {
PULSE->_ledG_t_flag = 6;
PULSE->_ledG_sw = PULSE->_ledG_sw6;
PULSE->_ledG_t = PULSE->_ledG_t6;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else if (PULSE->_ledG_t_flag == 6) {
PULSE->_ledG_t_flag = 7;
PULSE->_ledG_sw = PULSE->_ledG_sw7;
PULSE->_ledG_t = PULSE->_ledG_t7;
if (PULSE->_ledG_t == 1) {
PULSE->_ledG_sw = lastSwitch;
}
} else if (PULSE->_ledG_t_flag == 7) {
PULSE->_ledG_sw = false;
//PeriodicEvent = false;
//megaTrigEnable = false;
//ModeLED(NO_EVENT);
}
}
}
}
if (lastSwitch != PULSE->_ledG_sw) {
lastSwitch = PULSE->_ledG_sw;
PIN15_setOutputValue(MEGA_G_LED, PULSE->_ledG_sw);
}
}
static void PULSE_ledR(PULSEMode *PULSE)
{
static bool lastSwitch;
if (ledRFirstTime) {
ledRFirstTime = false;
lastSwitch = false;
PULSE->_ledR_t_flag = 1;
PULSE->_ledR_sw = PULSE->_ledR_sw1;
PULSE->_ledR_t = PULSE->_ledR_t1;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else if(!ledRFirstTime) {
if (GPT.LedRCounter >= PULSE->_ledR_t) {
GPT.LedRCounter -= PULSE->_ledR_t; //to get right time
if (PULSE->_ledR_lp > 0) {
if (PULSE->_ledR_cy > 0) {
if (PULSE->_ledR_t_flag == 1) {
PULSE->_ledR_t_flag = 2;
PULSE->_ledR_sw = PULSE->_ledR_sw2;
PULSE->_ledR_t = PULSE->_ledR_t2;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else if (PULSE->_ledR_t_flag == 2) {
PULSE->_ledR_t_flag = 3;
PULSE->_ledR_sw = PULSE->_ledR_sw3;
PULSE->_ledR_t = PULSE->_ledR_t3;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else if (PULSE->_ledR_t_flag == 3) {
PULSE->_ledR_cy -- ;
if (PULSE->_ledR_cy == 0) {
PULSE->_ledR_t_flag = 4;
PULSE->_ledR_sw = PULSE->_ledR_sw4;
PULSE->_ledR_t = PULSE->_ledR_t4;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else {
PULSE->_ledR_t_flag = 2;
PULSE->_ledR_sw = PULSE->_ledR_sw2;
PULSE->_ledR_t = PULSE->_ledR_t2;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
}
}
} else if (PULSE->_ledR_cy <= 0){
if (PULSE->_ledR_t_flag == 4) {
PULSE->_ledR_lp -- ;
if (PULSE->_ledR_lp > 0) {
PULSE->_ledR_cy = INSTRUCTION.ledR_cy;
PULSE->_ledR_t_flag = 2;
PULSE->_ledR_sw = PULSE->_ledR_sw2;
PULSE->_ledR_t = PULSE->_ledR_t2;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else {
PULSE->_ledR_t_flag = 5;
PULSE->_ledR_sw = PULSE->_ledR_sw5;
PULSE->_ledR_t = PULSE->_ledR_t5;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
}
}
}
} else if (PULSE->_ledR_lp <= 0) {
if (PULSE->_ledR_t_flag == 5) {
PULSE->_ledR_t_flag = 6;
PULSE->_ledR_sw = PULSE->_ledR_sw6;
PULSE->_ledR_t = PULSE->_ledR_t6;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else if (PULSE->_ledR_t_flag == 6) {
PULSE->_ledR_t_flag = 7;
PULSE->_ledR_sw = PULSE->_ledR_sw7;
PULSE->_ledR_t = PULSE->_ledR_t7;
if (PULSE->_ledR_t == 1) {
PULSE->_ledR_sw = lastSwitch;
}
} else if (PULSE->_ledR_t_flag == 7) {
PULSE->_ledR_sw = false;
//PeriodicEvent = false;
//megaTrigEnable = false;
//ModeLED(NO_EVENT);
}
}
}
}
if (lastSwitch != PULSE->_ledR_sw) {
lastSwitch = PULSE->_ledR_sw;
PIN15_setOutputValue(MEGA_R_LED, PULSE->_ledR_sw);
}
}
static void PULSE_gas0(PULSEMode *PULSE)
{
static bool lastSwitch;
if (gas0FirstTime) {
gas0FirstTime = false;
lastSwitch = false;
PULSE->_gas0_t_flag = 1;
PULSE->_gas0_sw = PULSE->_gas0_sw1;
PULSE->_gas0_t = PULSE->_gas0_t1;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else if(!gas0FirstTime) {
if (GPT.Gas0Counter >= PULSE->_gas0_t) {
GPT.Gas0Counter -= PULSE->_gas0_t; //to get right time
if (PULSE->_gas0_lp > 0) {
if (PULSE->_gas0_cy > 0) {
if (PULSE->_gas0_t_flag == 1) {
PULSE->_gas0_t_flag = 2;
PULSE->_gas0_sw = PULSE->_gas0_sw2;
PULSE->_gas0_t = PULSE->_gas0_t2;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else if (PULSE->_gas0_t_flag == 2) {
PULSE->_gas0_t_flag = 3;
PULSE->_gas0_sw = PULSE->_gas0_sw3;
PULSE->_gas0_t = PULSE->_gas0_t3;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else if (PULSE->_gas0_t_flag == 3) {
PULSE->_gas0_cy -- ;
if (PULSE->_gas0_cy == 0) {
PULSE->_gas0_t_flag = 4;
PULSE->_gas0_sw = PULSE->_gas0_sw4;
PULSE->_gas0_t = PULSE->_gas0_t4;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else {
PULSE->_gas0_t_flag = 2;
PULSE->_gas0_sw = PULSE->_gas0_sw2;
PULSE->_gas0_t = PULSE->_gas0_t2;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
}
}
} else if (PULSE->_gas0_cy <= 0){
if (PULSE->_gas0_t_flag == 4) {
PULSE->_gas0_lp -- ;
if (PULSE->_gas0_lp > 0) {
PULSE->_gas0_cy = INSTRUCTION.gas0_cy;
PULSE->_gas0_t_flag = 2;
PULSE->_gas0_sw = PULSE->_gas0_sw2;
PULSE->_gas0_t = PULSE->_gas0_t2;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else {
PULSE->_gas0_t_flag = 5;
PULSE->_gas0_sw = PULSE->_gas0_sw5;
PULSE->_gas0_t = PULSE->_gas0_t5;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
}
}
}
} else if (PULSE->_gas0_lp <= 0) {
if (PULSE->_gas0_t_flag == 5) {
PULSE->_gas0_t_flag = 6;
PULSE->_gas0_sw = PULSE->_gas0_sw6;
PULSE->_gas0_t = PULSE->_gas0_t6;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else if (PULSE->_gas0_t_flag == 6) {
PULSE->_gas0_t_flag = 7;
PULSE->_gas0_sw = PULSE->_gas0_sw7;
PULSE->_gas0_t = PULSE->_gas0_t7;
if (PULSE->_gas0_t == 1) {
PULSE->_gas0_sw = lastSwitch;
}
} else if (PULSE->_gas0_t_flag == 7) {
PULSE->_gas0_sw = false;
//PeriodicEvent = false;
//megaTrigEnable = false;
//ModeLED(NO_EVENT);
}
}
}
}
if (lastSwitch != PULSE->_gas0_sw) {
lastSwitch = PULSE->_gas0_sw;
PIN15_setOutputValue(MEGA_VAL_0, PULSE->_gas0_sw);
}
}
static void PULSE_gas1(PULSEMode *PULSE)
{
static bool lastSwitch;
if (gas1FirstTime) {
gas1FirstTime = false;
lastSwitch = true;
PULSE->_gas1_t_flag = 1;
PULSE->_gas1_sw = PULSE->_gas1_sw1;
PULSE->_gas1_t = PULSE->_gas1_t1;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else if(!gas1FirstTime) {
if (GPT.Gas1Counter >= PULSE->_gas1_t) {
GPT.Gas1Counter -= PULSE->_gas1_t; //to get right time
if (PULSE->_gas1_lp > 0) {
if (PULSE->_gas1_cy > 0) {
if (PULSE->_gas1_t_flag == 1) {
PULSE->_gas1_t_flag = 2;
PULSE->_gas1_sw = PULSE->_gas1_sw2;
PULSE->_gas1_t = PULSE->_gas1_t2;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else if (PULSE->_gas1_t_flag == 2) {
PULSE->_gas1_t_flag = 3;
PULSE->_gas1_sw = PULSE->_gas1_sw3;
PULSE->_gas1_t = PULSE->_gas1_t3;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else if (PULSE->_gas1_t_flag == 3) {
PULSE->_gas1_cy -- ;
if (PULSE->_gas1_cy == 0) {
PULSE->_gas1_t_flag = 4;
PULSE->_gas1_sw = PULSE->_gas1_sw4;
PULSE->_gas1_t = PULSE->_gas1_t4;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else {
PULSE->_gas1_t_flag = 2;
PULSE->_gas1_sw = PULSE->_gas1_sw2;
PULSE->_gas1_t = PULSE->_gas1_t2;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
}
}
} else if (PULSE->_gas1_cy <= 0){
if (PULSE->_gas1_t_flag == 4) {
PULSE->_gas1_lp -- ;
if (PULSE->_gas1_lp > 0) {
PULSE->_gas1_cy = INSTRUCTION.gas1_cy;
PULSE->_gas1_t_flag = 2;
PULSE->_gas1_sw = PULSE->_gas1_sw2;
PULSE->_gas1_t = PULSE->_gas1_t2;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else {
PULSE->_gas1_t_flag = 5;
PULSE->_gas1_sw = PULSE->_gas1_sw5;
PULSE->_gas1_t = PULSE->_gas1_t5;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
}
}
}
} else if (PULSE->_gas1_lp <= 0) {
if (PULSE->_gas1_t_flag == 5) {
PULSE->_gas1_t_flag = 6;
PULSE->_gas1_sw = PULSE->_gas1_sw6;
PULSE->_gas1_t = PULSE->_gas1_t6;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else if (PULSE->_gas1_t_flag == 6) {
PULSE->_gas1_t_flag = 7;
PULSE->_gas1_sw = PULSE->_gas1_sw7;
PULSE->_gas1_t = PULSE->_gas1_t7;
if (PULSE->_gas1_t == 1) {
PULSE->_gas1_sw = lastSwitch;
}
} else if (PULSE->_gas1_t_flag == 7) {
PULSE->_gas1_sw = true;
//PeriodicEvent = false;
//megaTrigEnable = false;
//ModeLED(NO_EVENT);
}
}
}
}
if (lastSwitch != PULSE->_gas1_sw) {
lastSwitch = PULSE->_gas1_sw;
PIN15_setOutputValue(MEGA_VAL_1, PULSE->_gas1_sw);
}
}
#endif
@@ -3,18 +3,35 @@
#define ELITERESET
static void reset() {
Mega_PeriodicEvent = false;
megaTrigEnable = false;
Mega_Trig_receive = false;
megaStiEnable = false;
megaLedGEnable = false;
megaLedREnable = false;
megaGas0Enable = false;
megaGas1Enable = false;
PIN15_setOutputValue(MEGA_G_LED, 0);
PIN15_setOutputValue(MEGA_R_LED, 0);
PIN15_setOutputValue(MEGA_VAL_0, 0);
PIN15_setOutputValue(MEGA_VAL_1, 1);
ModeLED(NO_EVENT);
InitEliteFlag();
InitFlag();
InitCT();
InitGPT();
InitLH();
InitLED();
PIN15_setOutputValue(HIGH_Z_MODE, 0); // 0 => open high_z mode
VinADCGainControl(VIN_GAIN_AUTO);
IinADCGainControl(I_GAIN_AUTO);
VoutGainControl(VOUT_GAIN_AUTO);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, INSTRUCTION.VoltConstant));
PIN15_setOutputValue(HIGH_Z_MODE, 0); // 0 => open high_z mode
INSTRUCTION.VoutGainLevel = VOUT_GAIN_15K;
VoutGainControl(INSTRUCTION.VoutGainLevel);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
initINSBuf();
initDATBuf();
@@ -33,25 +50,34 @@ static void reset() {
spi_ADC_rxbuf[i] = 0;
}
PIN15_setOutputValue(ADC_CS, 1); // ADC_CS HIGH
PIN15_setOutputValue(DAC_CS, 1); // DAC_CS HIGH
CPUdelay(1600);
}
static void Eliteinterrupt() {
InitFlag();
Mega_PeriodicEvent = false;
Mega_Trig_receive = false;
megaTrigEnable = false;
megaStiEnable = false;
megaLedGEnable = false;
megaLedREnable = false;
megaGas0Enable = false;
megaGas1Enable = false;
PIN15_setOutputValue(MEGA_G_LED, 0);
PIN15_setOutputValue(MEGA_R_LED, 0);
PIN15_setOutputValue(MEGA_VAL_0, 0);
PIN15_setOutputValue(MEGA_VAL_1, 1);
ModeLED(NO_EVENT);
InitFlag();
InitEliteFlag();
InitCT();
InitGPT();
InitLH();
VinADCGainControl(VIN_GAIN_AUTO);
IinADCGainControl(I_GAIN_AUTO);
VoutGainControl(VOUT_GAIN_AUTO);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, INSTRUCTION.VoltConstant));
PIN15_setOutputValue(HIGH_Z_MODE, 0); // 0 => open high_z mode
INSTRUCTION.VoutGainLevel = VOUT_GAIN_15K;
VoutGainControl(INSTRUCTION.VoutGainLevel);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
initINSBuf();
initDATBuf();
@@ -70,8 +96,6 @@ static void Eliteinterrupt() {
spi_ADC_rxbuf[i] = 0;
}
PIN15_setOutputValue(ADC_CS, 1); // ADC_CS HIGH
PIN15_setOutputValue(DAC_CS, 1); // DAC_CS HIGH
CPUdelay(8000);
}
#endif
@@ -15,9 +15,11 @@
#include "Elite_PIN.h"
/* application use SPI parameters and buffers */
#define SPI_LED_SIZE 28
//#define SPI_LED_SIZE 28
#define SPI_LED_SIZE LED_BUFF_SIZE
#define SPI_DAC_SIZE 3
#define SPI_ADC_SIZE 4
#define SPI_GPIO_BUFF_SIZE 10
static uint16_t spi_LEDtxbuf[SPI_LED_SIZE] = {0};
static uint16_t spi_LEDrxbuf[SPI_LED_SIZE] = {0};
@@ -28,6 +30,9 @@ static uint8_t spi_rxbuf[SPI_DAC_SIZE] = {0};
static uint8_t spi_ADC_txbuf[SPI_ADC_SIZE] = {0};
static uint8_t spi_ADC_rxbuf[SPI_ADC_SIZE] = {0};
static uint16_t spi_GPIO_txbuf = 0;
static uint16_t SPI_GPIO[SPI_GPIO_BUFF_SIZE] = {0};
/* system use SPI parameters */
static SPI_Handle spiHandle0 = NULL; // SPI0 = LED
static SPI_Handle spiHandle1 = NULL; // SPI1 = ADC +DAC
@@ -57,20 +62,17 @@ static void Elite_SPI_init(){
}
static void LED_SPI(uint8_t length, uint16_t *spi_txbuf, uint16_t *spi_rxbuf) {
ELITE15_SPI_HOLD();
LED_transaction.count = length;
LED_transaction.txBuf = spi_txbuf;
LED_transaction.rxBuf = spi_rxbuf;
SPI_transfer(spiHandle0, &LED_transaction);
ELITE15_SPI_CLOSE();
}
static void ADC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
ELITE15_SPI_HOLD();
PIN_setOutputValue(pin_handle, D6, 0); // CS_ADC
// PIN15_setOutputValue(ADC_CS, 0); // ADC_CS LOW
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, D6, 0); // ADC_CS LOW
ADC_DAC_transaction.count = length;
ADC_DAC_transaction.txBuf = spi_txbuf;
@@ -78,13 +80,15 @@ static void ADC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
SPI_transfer(spiHandle1, &ADC_DAC_transaction);
PIN_setOutputValue(pin_handle, D6, 1); // CS_ADC
ELITE15_SPI_CLOSE();
PIN_setOutputValue(pin_handle, D6, 1); // ADC_CS HOGH
update_latch_status (ADC_CS, 1);
// PIN15_setOutputValue(ADC_CS, 1); // ADC_CS HIGH
}
static void DAC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
ELITE15_SPI_HOLD();
PIN_setOutputValue(pin_handle, D7, 0); // CD_DAC
// PIN15_setOutputValue(DAC_CS, 0); // DAC_CS LOW
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, D7, 0); // DAC_CS LOW
ADC_DAC_transaction.count = length;
ADC_DAC_transaction.txBuf = spi_txbuf;
@@ -92,68 +96,32 @@ static void DAC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
SPI_transfer(spiHandle1, &ADC_DAC_transaction);
PIN_setOutputValue(pin_handle, D7, 1); // CD_DAC
ELITE15_SPI_CLOSE();
}
static void LED_SPI_TEST(uint8_t length, uint16_t *spi_txbuf, uint16_t *spi_rxbuf) {
LED_transaction.count = length;
LED_transaction.txBuf = spi_txbuf;
LED_transaction.rxBuf = spi_rxbuf;
SPI_transfer(spiHandle0, &LED_transaction);
}
static void ADC_SPI_TEST(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
PIN_setOutputValue(pin_handle, D6, 0); // CS_ADC
ADC_DAC_transaction.count = length;
ADC_DAC_transaction.txBuf = spi_txbuf;
ADC_DAC_transaction.rxBuf = spi_rxbuf;
SPI_transfer(spiHandle1, &ADC_DAC_transaction);
PIN_setOutputValue(pin_handle, D6, 1); // CS_ADC
}
static void DAC_SPI_TEST(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
PIN_setOutputValue(pin_handle, D7, 0); // CD_DAC
ADC_DAC_transaction.count = length;
ADC_DAC_transaction.txBuf = spi_txbuf;
ADC_DAC_transaction.rxBuf = spi_rxbuf;
SPI_transfer(spiHandle1, &ADC_DAC_transaction);
PIN_setOutputValue(pin_handle, D7, 1); // CD_DAC
PIN_setOutputValue(pin_handle, D7, 1); // DAC_CS HOGH
update_latch_status (DAC_CS, 1);
// PIN15_setOutputValue(DAC_CS, 1); // DAC_CS HIGH
}
static void ELITE15_SPI_HOLD() {
Elite_SPI_init();
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, LOAD1, 0);
PIN_setOutputValue(pin_handle, LOAD2, 0);
PIN_setOutputValue(pin_handle, D4, 1); // HOLD_MEM
PIN_setOutputValue(pin_handle, D5, 1); // CS_MEM
PIN_setOutputValue(pin_handle, D6, 1); // CS_ADC
PIN_setOutputValue(pin_handle, D7, 1); // CD_DAC
Elite_SPI_init();
}
static void ELITE15_SPI_CLOSE() {
PIN_setOutputValue(pin_handle, D4, 1); // HOLD_MEM
PIN_setOutputValue(pin_handle, D5, 1); // CS_MEM
PIN_setOutputValue(pin_handle, D6, 1); // CS_ADC
PIN_setOutputValue(pin_handle, D7, 1); // CD_DAC
PIN_setOutputValue(pin_handle, LOAD0, 0);
PIN_setOutputValue(pin_handle, LOAD1, 0);
PIN_setOutputValue(pin_handle, LOAD2, 0);
SPI_close(spiHandle0);
SPI_close(spiHandle1);
}
/* Elite1.5 Calibration SPI */
static void CAL_ADC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf) {
// ELITE15_SPI_HOLD();
PIN_setOutputValue(pin_handle, D6, 0); // CS_ADC
// PIN15_setOutputValue(ADC_CS, 0); // ADC_CS LOW
PIN_setOutputValue(pin_handle, LOAD0, 1);
PIN_setOutputValue(pin_handle, D6, 0); // ADC_CS LOW
ADC_DAC_transaction.count = length;
ADC_DAC_transaction.txBuf = spi_txbuf;
@@ -161,21 +129,51 @@ static void CAL_ADC_SPI(uint8_t length, uint8_t *spi_txbuf, uint8_t *spi_rxbuf)
SPI_transfer(spiHandle1, &ADC_DAC_transaction);
PIN_setOutputValue(pin_handle, D6, 1); // CS_ADC
// ELITE15_SPI_CLOSE();
PIN_setOutputValue(pin_handle, D6, 1); // ADC_CS HOGH
update_latch_status (ADC_CS, 1);
// PIN15_setOutputValue(ADC_CS, 1); // ADC_CS HIGH
}
static void CAL_LED_SPI(uint8_t length, uint16_t *spi_txbuf, uint16_t *spi_rxbuf) {
// ELITE15_SPI_HOLD();
/* Test Elite TRIG01 function on Meagfly hardware */
static void GPIO_SPI_transfer(uint32_t *GPIO_CLK_CH, uint16_t spi_GPIO_txbuf) {
LED_transaction.count = length;
LED_transaction.txBuf = spi_txbuf;
LED_transaction.rxBuf = spi_rxbuf;
for(int i=0; i<SPI_GPIO_BUFF_SIZE; i++){
SPI_GPIO[i] = 0;
}
SPI_transfer(spiHandle0, &LED_transaction);
SPI_GPIO[0] = (spi_GPIO_txbuf & 0b0000000000000001); // MOSI
SPI_GPIO[1] = (spi_GPIO_txbuf & 0b0000000000000010);
SPI_GPIO[2] = (spi_GPIO_txbuf & 0b0000000000000100);
SPI_GPIO[3] = (spi_GPIO_txbuf & 0b0000000000001000);
SPI_GPIO[4] = (spi_GPIO_txbuf & 0b0000000000010000);
SPI_GPIO[5] = (spi_GPIO_txbuf & 0b0000000000100000);
SPI_GPIO[6] = (spi_GPIO_txbuf & 0b0000000001000000);
SPI_GPIO[7] = (spi_GPIO_txbuf & 0b0000000010000000);
SPI_GPIO[8] = (spi_GPIO_txbuf & 0b0000000100000000);
SPI_GPIO[9] = (spi_GPIO_txbuf & 0b0000001000000000);
// ELITE15_SPI_CLOSE();
ELITE15_SPI_CLOSE();
add_elite_pin();
PIN_setOutputValue(pin_handle, LOAD0, 1);
for (int i=SPI_GPIO_BUFF_SIZE-1; i>=0; i--) {
PIN_setOutputValue(pin_handle, GPIO_CLK_CH[1], 0); // generate clk signal
PIN_setOutputValue(pin_handle, D3, SPI_GPIO[i]); // data transfer at rising edge, MOSI = D3
PIN_setOutputValue(pin_handle, GPIO_CLK_CH[1], 1); // generate clk signal
}
PIN_setOutputValue(pin_handle, GPIO_CLK_CH[1], 0);
update_latch_status (GPIO_CLK_CH[0], GPIO_CLK_CH[1], 0);
PIN_setOutputValue(pin_handle, D3, 0);
update_latch_status (ADC_DAC_SPI_MOSI, 0);
PIN_setOutputValue(pin_handle, LOAD0, 0);
remove_elite_pin();
ELITE15_SPI_HOLD();
// PIN15_setOutputValue(ADC_DAC_SPI_MOSI, 0);
// PIN15_setOutputValue(GPIO_CLK_CH[0], GPIO_CLK_CH[1], 0);
}
#endif // ELITE_SPI
@@ -327,6 +327,230 @@ CVSCANMode * InitCVSCANMode(){
}
/*End of CONSTANT_VSCAN Mode*/
/* PULSE_MODE Mode(PULSE_MODE)*/
typedef struct _PULSEMode {
MEASURE;
int32_t _Vset;
int32_t _sti_v1;
int32_t _sti_v2;
int32_t _sti_v3;
int32_t _sti_v4;
int32_t _sti_v5;
int32_t _sti_v6;
int32_t _sti_v7;
int32_t _sti_t1;
int32_t _sti_t2;
int32_t _sti_t3;
int32_t _sti_t4;
int32_t _sti_t5;
int32_t _sti_t6;
int32_t _sti_t7;
int32_t _sti_t;
int32_t _sti_v; //output voltage now
int32_t _sti_t_flag; //Where's the time stage turn
uint16_t _sti_cy;
uint16_t _sti_lp;
//ledG
uint8_t _ledG_sw1;
uint8_t _ledG_sw2;
uint8_t _ledG_sw3;
uint8_t _ledG_sw4;
uint8_t _ledG_sw5;
uint8_t _ledG_sw6;
uint8_t _ledG_sw7;
int32_t _ledG_t1;
int32_t _ledG_t2;
int32_t _ledG_t3;
int32_t _ledG_t4;
int32_t _ledG_t5;
int32_t _ledG_t6;
int32_t _ledG_t7;
int32_t _ledG_t;
uint8_t _ledG_sw;
int32_t _ledG_t_flag;
uint16_t _ledG_cy;
uint16_t _ledG_lp;
//ledR
uint8_t _ledR_sw1;
uint8_t _ledR_sw2;
uint8_t _ledR_sw3;
uint8_t _ledR_sw4;
uint8_t _ledR_sw5;
uint8_t _ledR_sw6;
uint8_t _ledR_sw7;
int32_t _ledR_t1;
int32_t _ledR_t2;
int32_t _ledR_t3;
int32_t _ledR_t4;
int32_t _ledR_t5;
int32_t _ledR_t6;
int32_t _ledR_t7;
int32_t _ledR_t;
uint8_t _ledR_sw;
int32_t _ledR_t_flag;
uint16_t _ledR_cy;
uint16_t _ledR_lp;
//gas0
uint8_t _gas0_sw1;
uint8_t _gas0_sw2;
uint8_t _gas0_sw3;
uint8_t _gas0_sw4;
uint8_t _gas0_sw5;
uint8_t _gas0_sw6;
uint8_t _gas0_sw7;
int32_t _gas0_t1;
int32_t _gas0_t2;
int32_t _gas0_t3;
int32_t _gas0_t4;
int32_t _gas0_t5;
int32_t _gas0_t6;
int32_t _gas0_t7;
int32_t _gas0_t;
uint8_t _gas0_sw;
int32_t _gas0_t_flag;
uint16_t _gas0_cy;
uint16_t _gas0_lp;
//gas1
uint8_t _gas1_sw1;
uint8_t _gas1_sw2;
uint8_t _gas1_sw3;
uint8_t _gas1_sw4;
uint8_t _gas1_sw5;
uint8_t _gas1_sw6;
uint8_t _gas1_sw7;
int32_t _gas1_t1;
int32_t _gas1_t2;
int32_t _gas1_t3;
int32_t _gas1_t4;
int32_t _gas1_t5;
int32_t _gas1_t6;
int32_t _gas1_t7;
int32_t _gas1_t;
uint8_t _gas1_sw;
int32_t _gas1_t_flag;
uint16_t _gas1_cy;
uint16_t _gas1_lp;
} PULSEMode;
PULSEMode * InitPULSEMode() {
PULSEMode *ret = malloc(sizeof(PULSEMode));
ret->_measureCurrent = 0;
ret->_measureVin = 0;
ret->_measureVout = 0;
ret->_measureBat = 0;
ret->_VoViSwitch = INSTRUCTION.VoViSwitch;
ret->_Vset = 0;
ret->_sti_v1 = INSTRUCTION.sti_v1;
ret->_sti_v2 = INSTRUCTION.sti_v2;
ret->_sti_v3 = INSTRUCTION.sti_v3;
ret->_sti_v4 = INSTRUCTION.sti_v4;
ret->_sti_v5 = INSTRUCTION.sti_v5;
ret->_sti_v6 = INSTRUCTION.sti_v6;
ret->_sti_v7 = INSTRUCTION.sti_v7;
ret->_sti_t1 = INSTRUCTION.sti_t1;
ret->_sti_t2 = INSTRUCTION.sti_t2;
ret->_sti_t3 = INSTRUCTION.sti_t3;
ret->_sti_t4 = INSTRUCTION.sti_t4;
ret->_sti_t5 = INSTRUCTION.sti_t5;
ret->_sti_t6 = INSTRUCTION.sti_t6;
ret->_sti_t7 = INSTRUCTION.sti_t7;
ret->_sti_t = INSTRUCTION.sti_t1;
ret->_sti_v = INSTRUCTION.sti_v1;
ret->_sti_t_flag = 1;
ret->_sti_cy = INSTRUCTION.sti_cy;
ret->_sti_lp = INSTRUCTION.sti_loop;
//ledG
ret->_ledG_sw1 = INSTRUCTION.ledG_sw1;
ret->_ledG_sw2 = INSTRUCTION.ledG_sw2;
ret->_ledG_sw3 = INSTRUCTION.ledG_sw3;
ret->_ledG_sw4 = INSTRUCTION.ledG_sw4;
ret->_ledG_sw5 = INSTRUCTION.ledG_sw5;
ret->_ledG_sw6 = INSTRUCTION.ledG_sw6;
ret->_ledG_sw7 = INSTRUCTION.ledG_sw7;
ret->_ledG_t1 = INSTRUCTION.ledG_t1;
ret->_ledG_t2 = INSTRUCTION.ledG_t2;
ret->_ledG_t3 = INSTRUCTION.ledG_t3;
ret->_ledG_t4 = INSTRUCTION.ledG_t4;
ret->_ledG_t5 = INSTRUCTION.ledG_t5;
ret->_ledG_t6 = INSTRUCTION.ledG_t6;
ret->_ledG_t7 = INSTRUCTION.ledG_t7;
ret->_ledG_t = INSTRUCTION.ledG_t1;
ret->_ledG_sw = INSTRUCTION.ledG_sw1;
ret->_ledG_t_flag = 1;
ret->_ledG_cy = INSTRUCTION.ledG_cy;
ret->_ledG_lp = INSTRUCTION.ledG_loop;
//ledR
ret->_ledR_sw1 = INSTRUCTION.ledR_sw1;
ret->_ledR_sw2 = INSTRUCTION.ledR_sw2;
ret->_ledR_sw3 = INSTRUCTION.ledR_sw3;
ret->_ledR_sw4 = INSTRUCTION.ledR_sw4;
ret->_ledR_sw5 = INSTRUCTION.ledR_sw5;
ret->_ledR_sw6 = INSTRUCTION.ledR_sw6;
ret->_ledR_sw7 = INSTRUCTION.ledR_sw7;
ret->_ledR_t1 = INSTRUCTION.ledR_t1;
ret->_ledR_t2 = INSTRUCTION.ledR_t2;
ret->_ledR_t3 = INSTRUCTION.ledR_t3;
ret->_ledR_t4 = INSTRUCTION.ledR_t4;
ret->_ledR_t5 = INSTRUCTION.ledR_t5;
ret->_ledR_t6 = INSTRUCTION.ledR_t6;
ret->_ledR_t7 = INSTRUCTION.ledR_t7;
ret->_ledR_t = INSTRUCTION.ledR_t1;
ret->_ledR_sw = INSTRUCTION.ledR_sw1;
ret->_ledR_t_flag = 1;
ret->_ledR_cy = INSTRUCTION.ledR_cy;
ret->_ledR_lp = INSTRUCTION.ledR_loop;
//gas0
ret->_gas0_sw1 = INSTRUCTION.gas0_sw1;
ret->_gas0_sw2 = INSTRUCTION.gas0_sw2;
ret->_gas0_sw3 = INSTRUCTION.gas0_sw3;
ret->_gas0_sw4 = INSTRUCTION.gas0_sw4;
ret->_gas0_sw5 = INSTRUCTION.gas0_sw5;
ret->_gas0_sw6 = INSTRUCTION.gas0_sw6;
ret->_gas0_sw7 = INSTRUCTION.gas0_sw7;
ret->_gas0_t1 = INSTRUCTION.gas0_t1;
ret->_gas0_t2 = INSTRUCTION.gas0_t2;
ret->_gas0_t3 = INSTRUCTION.gas0_t3;
ret->_gas0_t4 = INSTRUCTION.gas0_t4;
ret->_gas0_t5 = INSTRUCTION.gas0_t5;
ret->_gas0_t6 = INSTRUCTION.gas0_t6;
ret->_gas0_t7 = INSTRUCTION.gas0_t7;
ret->_gas0_t = INSTRUCTION.gas0_t1;
ret->_gas0_sw = INSTRUCTION.gas0_sw1;
ret->_gas0_t_flag = 1;
ret->_gas0_cy = INSTRUCTION.gas0_cy;
ret->_gas0_lp = INSTRUCTION.gas0_loop;
//gas1
ret->_gas1_sw1 = INSTRUCTION.gas1_sw1;
ret->_gas1_sw2 = INSTRUCTION.gas1_sw2;
ret->_gas1_sw3 = INSTRUCTION.gas1_sw3;
ret->_gas1_sw4 = INSTRUCTION.gas1_sw4;
ret->_gas1_sw5 = INSTRUCTION.gas1_sw5;
ret->_gas1_sw6 = INSTRUCTION.gas1_sw6;
ret->_gas1_sw7 = INSTRUCTION.gas1_sw7;
ret->_gas1_t1 = INSTRUCTION.gas1_t1;
ret->_gas1_t2 = INSTRUCTION.gas1_t2;
ret->_gas1_t3 = INSTRUCTION.gas1_t3;
ret->_gas1_t4 = INSTRUCTION.gas1_t4;
ret->_gas1_t5 = INSTRUCTION.gas1_t5;
ret->_gas1_t6 = INSTRUCTION.gas1_t6;
ret->_gas1_t7 = INSTRUCTION.gas1_t7;
ret->_gas1_t = INSTRUCTION.gas1_t1;
ret->_gas1_sw = INSTRUCTION.gas1_sw1;
ret->_gas1_t_flag = 1;
ret->_gas1_cy = INSTRUCTION.gas1_cy;
ret->_gas1_lp = INSTRUCTION.gas1_loop;
return ret;
}
/*End of PULSE_MODE Mode*/
/* Cycle CC Mode */
typedef struct _CCCMode{
int32_t _measureCurrent;
@@ -423,6 +647,7 @@ typedef union _WorkMode{
LSVMode *LSV;
CVSCANMode *CVSCAN;
PSMode *PS;
PULSEMode *PULSE;
// CCCMode *CCC;
}WorkMode;
@@ -464,6 +689,9 @@ void InitWorkMode(WorkMode *WM){
case CONSTANT_VSCAN:
WM->CVSCAN = InitCVSCANMode();
break;
case PULSE_MODE:
WM->PULSE = InitPULSEMode();
break;
// case CYCLE_CONSTANT_CURRENT:
// WM->CCC = InitCCCMode();
// break;
@@ -536,6 +764,12 @@ void FreeWorkMode(WorkMode *WM){
WM->CVSCAN = NULL;
}
break;
case PULSE_MODE:
if(WM->PULSE != NULL){
free(WM->PULSE);
WM->PULSE = NULL;
}
break;
// case CYCLE_CONSTANT_CURRENT:
// if(WM->CCC != NULL){
// free(WM->CCC);
@@ -30,14 +30,19 @@
#define LOAD1 IOID_12
#define LOAD2 IOID_11
#define ADC_CS LOAD0, D6
#define DAC_CS LOAD0, D7
#define ADC_CS LOAD0, D6 // TW_SCKI_2
#define DAC_CS LOAD0, D7 // TW_SCKI_3
#define ADC_DAC_SPI_MOSI LOAD0, D3
#define ADC_DAC_SPI_CLK LOAD0, D2
#define LED_MOSI LOAD0, D1
#define LED_CLK LOAD0, D0
#define MEM_HOLD LOAD0, D4
#define MEM_CS LOAD0, D5
#define MEM_HOLD LOAD0, D4 // TW_SCKI_0
#define MEM_CS LOAD0, D5 // TW_SCKI_1
#define TW_SCKI_0 MEM_HOLD
#define TW_SCKI_1 MEM_CS
#define TW_SCKI_2 ADC_CS
#define TW_SCKI_3 DAC_CS
#define Turnon_I_MID LOAD2, D0
#define Turnon_I_SMALL LOAD2, D4
@@ -61,6 +66,14 @@
#define enable_10v LOAD1, D5
#define enable_5v LOAD1, D6
/* Megafly control */
#define MEGA_G_LED LOAD1, D0
#define MEGA_R_LED LOAD1, D1
#define MEGA_VAL_0 LOAD1, D2
#define MEGA_VAL_1 LOAD1, D3
#define MEGA_TRIG IOID_0
#define MEGA_TRIG_test IOID_2
PIN_Handle pin_handle;
static PIN_State ZM_rst;
@@ -69,16 +82,18 @@ const PIN_Config BLE_IO[] = {
// D1 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D2 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D3 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
D4 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
D5 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
D6 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
D7 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D4 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D5 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D6 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
// D7 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
LOAD0 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
LOAD1 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
LOAD2 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,
switch_on | PIN_INPUT_EN | PIN_PULLDOWN, // to sense switch
MEGA_TRIG | PIN_GPIO_OUTPUT_DIS | PIN_INPUT_EN | PIN_PULLDOWN,
MEGA_TRIG_test | PIN_GPIO_OUTPUT_DIS | PIN_INPUT_EN | PIN_PULLDOWN,
PIN_TERMINATE
};
@@ -93,15 +108,28 @@ static void add_elite_pin() {
D2 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
PIN_add(pin_handle,
D3 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
PIN_add(pin_handle,
D4 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
PIN_add(pin_handle,
D5 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
PIN_add(pin_handle,
D6 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
PIN_add(pin_handle,
D7 | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL);
// if(elite15_status != PIN_SUCCESS) {
// LED_color(DARKLED, 0x0F, 0x0F, 0x0F);
// }
}
static void megafly_trig_callback(PIN_Handle handle, PIN_Id pinId);
static void remove_elite_pin() {
PIN_close(pin_handle);
pin_handle = PIN_open(&ZM_rst, BLE_IO);
PIN_registerIntCb(pin_handle, megafly_trig_callback);
PIN_setInterrupt(pin_handle, MEGA_TRIG | PIN_IRQ_NEGEDGE);
PIN_setInterrupt(pin_handle, MEGA_TRIG_test | PIN_IRQ_NEGEDGE);
}
/*!
@@ -39,6 +39,7 @@
#define ADC_TEST 0x91
#define CALI_DAC_MODE 0x93
#define CALI_ADC_MODE 0x92
#define PULSE_MODE 0x94
// CIS (control instruction)
#define CIS_VERSION 0x40
@@ -55,6 +56,21 @@
#define ReadADCVolt(x) ((x==0)? ReadADCVout(spi_ADC_rxbuf) : ReadADCVin(spi_ADC_rxbuf))
#define PARA_1 0x01
#define PARA_2 0x02
#define PARA_3 0x03
#define PARA_4 0x04
#define PARA_5 0x05
#define PARA_6 0x06
#define PARA_7 0x07
#define PARA_8 0x08
#define PARA_9 0x09
#define PARA_10 0x0A
#define PARA_11 0x0B
#define PARA_12 0x0C
#define PARA_13 0x0D
#define PARA_14 0x0E
#define PARA_15 0x0F
#define PARA_16 0x10
#define PARA_17 0x11
//Elite LED
#define COLOR_BLACK 0x00
@@ -80,5 +96,6 @@
#define WORKING 0x04
#define POST_WORK 0x05
#define MEGA_15V 41406
#define VALUE_ZERO_TO_ONE(_v) (_v == 0) ? 1 : _v
#endif
@@ -62,7 +62,8 @@ static void DACenable(WorkMode *WorkModeData, int32_t VoltData ,uint8_t afterRea
case VT_CURVE:
case CYCLIC_VOLTAMMETRY:
case LINEAR_SWEEP_VOLTAMMETRY:
case CONSTANT_VSCAN:{
case CONSTANT_VSCAN:
case PULSE_MODE:{
break;
}
default:{
@@ -82,7 +83,8 @@ static void DACenable(WorkMode *WorkModeData, int32_t VoltData ,uint8_t afterRea
}
case IT_CURVE:
case VT_CURVE:
case CONSTANT_CURRENT:{
case CONSTANT_CURRENT:
case PULSE_MODE:{
break;
}
case CYCLIC_VOLTAMMETRY:{
@@ -142,6 +144,10 @@ static void CC_Plot(WorkMode *WorkModeData){
#define CURRENT_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define CURRENT_MODE WorkModeData->PULSE
break;
}
default: {
break;
}
@@ -279,6 +285,10 @@ static void IT_Plot(WorkMode *WorkModeData) {
#define CURRENT_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define CURRENT_MODE WorkModeData->PULSE
break;
}
default: {
break;
}
@@ -357,6 +367,10 @@ static void VT_Plot(WorkMode *WorkModeData) {
#define CURRENT_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define CURRENT_MODE WorkModeData->PULSE
break;
}
default: {
break;
}
@@ -440,6 +454,10 @@ static void readIin(WorkMode *WorkModeData){
#define TEMP_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define TEMP_MODE WorkModeData->PULSE
break;
}
default: {
break;
}
@@ -497,6 +515,10 @@ static int32_t readVinVout(WorkMode *WorkModeData){
#define TEMP_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define TEMP_MODE WorkModeData->PULSE
break;
}
default: {
break;
}
@@ -565,6 +587,10 @@ static void cali_IT_plot(WorkMode *WorkModeData) {
#define CURRENT_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define CURRENT_MODE WorkModeData->PULSE
break;
}
default: {
#define CURRENT_MODE WorkModeData->VT
break;
@@ -576,6 +602,7 @@ static void cali_IT_plot(WorkMode *WorkModeData) {
static int32_t ADCValueSUM = 0;
int32_t ADCValueAVG = 0;
int16_t ADCValueAVG_RAW = 0;
static uint16_t cali_count_max = 1000;
if(ADCSwitch == 0){ /**read Iin(buffer)**/
if(INSTRUCTION.AutoGainEnable){
@@ -588,6 +615,11 @@ static void cali_IT_plot(WorkMode *WorkModeData) {
record_flag = false;
}
}
if(INSTRUCTION.ADCGainLevel == 0) {
cali_count_max = 5000;
} else {
cali_count_max = 1000;
}
if(record_flag == false){
static int recordCount = 0;
@@ -598,7 +630,7 @@ static void cali_IT_plot(WorkMode *WorkModeData) {
}
}else{
static uint16_t cali_count = 0;
if(cali_count >= 1000){
if(cali_count >= cali_count_max){
ADCValueAVG = ADCValueSUM / cali_count;
InputNotify(NOTIFY_CURRENT, ADCValueAVG);
@@ -615,7 +647,6 @@ static void cali_IT_plot(WorkMode *WorkModeData) {
cali_count = 0;
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}else{
cali_count++;
@@ -678,6 +709,10 @@ static void cali_VT_plot(WorkMode *WorkModeData) {
#define CURRENT_MODE WorkModeData->CVSCAN
break;
}
case PULSE_MODE:{
#define CURRENT_MODE WorkModeData->PULSE
break;
}
default: {
#define CURRENT_MODE WorkModeData->VT
break;
@@ -690,6 +725,7 @@ static void cali_VT_plot(WorkMode *WorkModeData) {
static int32_t ADCValueSUM = 0;
int32_t ADCValueAVG = 0;
int16_t ADCValueAVG_RAW = 0;
static uint16_t cali_count_max = 1000;
if(ADCSwitch == 0){ /**read Iin(buffer)**/
if(CURRENT_MODE->_VoViSwitch == 0x01 || CURRENT_MODE->_VoViSwitch == 0x02){
@@ -706,6 +742,12 @@ static void cali_VT_plot(WorkMode *WorkModeData) {
}
VoltData = CURRENT_MODE->_measureVin;
}
if(INSTRUCTION.VinADCGainLevel == 0) {
cali_count_max = 5000;
} else {
cali_count_max = 1000;
}
// else if(CURRENT_MODE->_VoViSwitch == 0x00){
// ReadADCVolt(CURRENT_MODE->_VoViSwitch);
// CURRENT_MODE->_measureVout = DecodeADCValue(INSTRUCTION.ADCGainLevel, ADC_CH_DAC, spi_ADC_rxbuf);
@@ -721,7 +763,7 @@ static void cali_VT_plot(WorkMode *WorkModeData) {
}
}else{
static uint16_t cali_count = 0;
if(cali_count >= 1000){
if(cali_count >= cali_count_max){
ADCValueAVG = ADCValueSUM / cali_count;
InputNotify(NOTIFY_VOLT, ADCValueAVG);
@@ -738,7 +780,6 @@ static void cali_VT_plot(WorkMode *WorkModeData) {
cali_count = 0;
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}else{
cali_count++;
@@ -3,10 +3,10 @@
#define VERSION_DATE
#define VERSION_DATE_YEAR 20
#define VERSION_DATE_MONTH 9
#define VERSION_DATE_DAY 7
#define VERSION_DATE_MONTH 12
#define VERSION_DATE_DAY 11
#define VERSION_DATE_HOUR 17
#define VERSION_DATE_MINUTE 58
#define VERSION_DATE_MINUTE 20
// this is NOT the version hash !!
// it's the last version hash
@@ -38,6 +38,28 @@ static void elite_gptimer_callback(GPTimerCC26XX_Handle handle, GPTimerCC26XX_In
GPT.GptimerCounter++;
}
static void megafly_trig_callback(PIN_Handle handle, PIN_Id pinId) {
// bool trig = 1;
// trig = PIN_getInputValue(MEGA_TRIG);
if (INSTRUCTION.eliteFxn == PULSE_MODE && megaTrigEnable){
Mega_PeriodicEvent = true;
Mega_Trig_receive = true;
}
switch (pinId) {
case MEGA_TRIG :{
MEGA_getTRIG = true;
break;
}
case MEGA_TRIG_test :{
MEGA_test_getTRIG = true;
break;
}
default :{
break;
}
}
// PIN15_setOutputValue(MEGA_G_LED, 1);
}
static void ZM_update_instruction_callback(uint8_t ins_type, uint8_t chip_ID, uint8_t *ins);
@@ -46,15 +68,21 @@ static void ZM_init() {
// initialize
pin_handle = PIN_open(&ZM_rst, BLE_IO);
// PIN_registerIntCb(pin_handle, megafly_trig_callback);
// PIN_setInterrupt(pin_handle, MEGA_TRIG | PIN_IRQ_NEGEDGE);
InitLED();
Init_Elite15_PIN();
ELITE15_SPI_HOLD();
PIN15_setOutputValue(shutdown_6994, 1); // OFF = 1 => turn off 6994
PIN15_setOutputValue(enable_10v, 0); // enable 10V
PIN15_setOutputValue(HIGH_Z_MODE, 0); // HIGH Z MODE // 1 => close high_z mode
PIN15_setOutputValue(ADC_CS, 1); // ADC_CS HIGH
PIN15_setOutputValue(DAC_CS, 1); // DAC_CS HIGH
PIN15_setOutputValue(MEM_CS, 1); // MEM_CS HIGH
PIN15_setOutputValue(HIGH_Z_MODE, 0); // HIGH Z MODE
/* Turn off Megafly output pin */
PIN15_setOutputValue(MEGA_G_LED, 0);
PIN15_setOutputValue(MEGA_R_LED, 0);
PIN15_setOutputValue(MEGA_VAL_0, 0);
PIN15_setOutputValue(MEGA_VAL_1, 1);
InitEliteInstruction();
IinADCGainControl(INSTRUCTION.ADCGainLevel);
@@ -62,6 +90,7 @@ static void ZM_init() {
VoutGainControl(INSTRUCTION.VoutGainLevel);
elite_gptimer_open();
TRIG0_LED_Init();
// PIN_registerIntCb(pin_handle, switch_on_callback);
// PIN_setInterrupt(pin_handle, switch_on | PIN_IRQ_POSEDGE);
}
@@ -129,7 +158,6 @@ static void SimpleBLEPeripheral_performPeriodicTask(WorkMode *WorkModeData) {
if (INSTRUCTION.Ve1 == INSTRUCTION.Ve2) {
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, INSTRUCTION.Ve1));
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
ModeLED(NO_EVENT);
}
}
@@ -174,7 +202,7 @@ static void SimpleBLEPeripheral_performPeriodicTask(WorkMode *WorkModeData) {
uint16_t bat = ((uint16_t)(NotifyVoltBat[2]) << 8 & 0xFF00 ) | ((uint16_t)(NotifyVoltBat[3]) & 0x00FF);
if( bat < 768 && bat > 20){
PIN15_setOutputValue(enable_5v, 0);
// PIN15_setOutputValue(enable_5v, 0);
}
//ADC counter
@@ -204,20 +232,160 @@ static void SimpleBLEPeripheral_performPeriodicTask(WorkMode *WorkModeData) {
}
// EliteDone();
}else if(INSTRUCTION.eliteFxn == VOLT_OUTPUT){
}
else if (INSTRUCTION.eliteFxn == PULSE_MODE) {
/** Periodic Event **/
// Default working flow is vscan -> ADC read -> send notify
// We will need a flag to control vscan, ADC and notify
GPT.DeltaGptimerCounter = GPT.GptimerCounter - GPT.GptimerCounter0;
GPT.GptimerCounter0 = GPT.GptimerCounter;
if(EliteWorkReset){
InitEliteGPtimer();
EliteWorkReset = false;
batteryADC_flag = false;
record_flag = true;
//pulsemode variable
stiFirstTime = true;
ledGFirstTime = true; //green led
ledRFirstTime = true; //red led
gas0FirstTime = true; //gas0
gas1FirstTime = true; //gas1
VinADCGainControl(INSTRUCTION.VinADCGainLevel);
IinADCGainControl(INSTRUCTION.ADCGainLevel);
VoutGainControl(INSTRUCTION.VoutGainLevel);
if (Ve1MatchVe2Mode()) {
if (INSTRUCTION.Ve1 == INSTRUCTION.Ve2) {
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, INSTRUCTION.Ve1));
PeriodicEvent = false;
ModeLED(NO_EVENT);
}
} else if (INSTRUCTION.eliteFxn == PULSE_MODE) {
if(!megaStiEnable && !megaLedGEnable && !megaLedREnable && !megaGas0Enable && !megaGas1Enable){
PeriodicEvent = false;
ModeLED(NO_EVENT);
}
}
}
GPT.LeadTimeCounter = GPT.LeadTimeCounter + GPT.DeltaGptimerCounter;
if(leadTimeReset && GPT.LeadTimeCounter <= 2000){
vscanReset = true;
}else{
if(notifyFirst_flag){
GPT.NotifyCounter = INSTRUCTION.notifyRate - 20;
notifyFirst_flag = false;
}
vscanReset = false;
leadTimeReset = false;
}
//pulse mode counter
GPT.StiCounter = GPT.StiCounter + GPT.DeltaGptimerCounter;
GPT.LedGCounter = GPT.LedGCounter + GPT.DeltaGptimerCounter;
GPT.LedRCounter = GPT.LedRCounter + GPT.DeltaGptimerCounter;
GPT.Gas0Counter = GPT.Gas0Counter + GPT.DeltaGptimerCounter;
GPT.Gas1Counter = GPT.Gas1Counter + GPT.DeltaGptimerCounter;
if (vscanReset) {
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
//vscanReset = false;
}else{
if (megaStiEnable) {
PULSE_Vscan(WorkModeData->PULSE);
}
if (megaLedGEnable){
PULSE_ledG(WorkModeData->PULSE);
}
if (megaLedREnable){
PULSE_ledR(WorkModeData->PULSE);
}
if (megaGas0Enable){
PULSE_gas0(WorkModeData->PULSE);
}
if (megaGas1Enable){
PULSE_gas1(WorkModeData->PULSE);
}
}
// if(GPT.VscanRateCounter >= INSTRUCTION.VsetRate){
// if(GPT.VscanRateCounter >= INSTRUCTION.VsetRate * 2){
// GPT.GptimerMultiple = GPT.VscanRateCounter / INSTRUCTION.VsetRate;
// }else{
// GPT.GptimerMultiple = 1;
// }
// GPT.VscanRateCounter -= INSTRUCTION.VsetRate * GPT.GptimerMultiple; //To get right time
// vscan_flag = true;
// if(vscan_flag){
// EliteVscanControl(WorkModeData);
// vscan_flag = false;
// }
// }
//battery counter
GPT.BatteryADCCounter = GPT.BatteryADCCounter + GPT.DeltaGptimerCounter;
GPT.BatteryCheckCounter = GPT.BatteryCheckCounter + GPT.DeltaGptimerCounter;
if(GPT.BatteryCheckCounter >= 50000){
GPT.BatteryCheckCounter -= 50000; //To get right time
batteryCheck_flag = true;
}
uint16_t bat = ((uint16_t)(NotifyVoltBat[2]) << 8 & 0xFF00 ) | ((uint16_t)(NotifyVoltBat[3]) & 0x00FF);
if( bat < 768 && bat > 20){
// PIN15_setOutputValue(enable_5v, 0);
}
//ADC counter
GPT.SampleRateCounter = GPT.SampleRateCounter + GPT.DeltaGptimerCounter;
if(GPT.SampleRateCounter >= INSTRUCTION.sampleRate){
GPT.SampleRateCounter = 0; //To get right data, ADC must be delay 1.5ms
ADC_flag = true;
if(ADC_flag){
EliteADCControl(WorkModeData);
ADC_flag = false;
}
}
//Notify counter(Notify control, check if we need to send notify)
//please don't put Notify counter before ADC counter, maybe get wrong data
GPT.NotifyCounter = GPT.NotifyCounter + GPT.DeltaGptimerCounter;
if(GPT.NotifyCounter >= INSTRUCTION.notifyRate){
GPT.NotifyCounter -= INSTRUCTION.notifyRate; //To get right time
notify_flag = true;
if(vscanReset){
notify_flag = false;
}
if(notify_flag && megaStiEnable){
InputNotify(NOTIFY_IMPEDANCE, Mega_Trig_receive);
SendNotify();
Mega_Trig_receive = false;
notify_flag = false;
}
}
// EliteDone();
}
else if(INSTRUCTION.eliteFxn == VOLT_OUTPUT){
WorkModeData->VO->_Vset = INSTRUCTION.VoltConstant;
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, WorkModeData->VO->_Vset)); //UserCode -> DAC code -> DAC out
FreeWorkMode(WorkModeData);
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
}else if(INSTRUCTION.eliteFxn == CALI_DAC_MODE){
}
else if(INSTRUCTION.eliteFxn == CALI_DAC_MODE){
DAC_outputV(INSTRUCTION.VoltConstant); //UserCode -> DAC code -> DAC out
FreeWorkMode(WorkModeData);
PeriodicEvent = false;
ELITE15_SPI_CLOSE();
}
else{
InitFlag();
// InitFlag();
}
}
@@ -268,6 +436,10 @@ static void EliteADCControl(WorkMode *WorkModeData) {
break;
}
case PULSE_MODE:{
CC_Plot(WorkModeData);
break;
}
default:{
break;
}
@@ -313,6 +485,10 @@ static void EliteVscanControl(WorkMode *WorkModeData) {
CVSCAN_Vscan(WorkModeData->CVSCAN);
break;
}
case PULSE_MODE:{
// PULSE_Vscan(WorkModeData->PULSE);
break;
}
default:{
break;
}
@@ -546,17 +546,18 @@ static void SimpleBLEPeripheral_taskFxn(UArg a0, UArg a1) {
// Initialize application
SimpleBLEPeripheral_init();
ZM_init();
// Elite_SPI_init();
WorkMode *WorkModeData = CreateWorkMode();
// init DAC, set output ~= 0 V
INSTRUCTION.VoutGainLevel = VOUT_GAIN_15K;
VoutGainControl(INSTRUCTION.VoutGainLevel);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
uint8_t key = 0;
uint16_t counter6994 = 0;
bool EliteOn = 0;
// init DAC, set output ~= 0 V
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, 25000));
elite_gptimer_start();
// Application main loops
@@ -616,6 +617,7 @@ static void SimpleBLEPeripheral_taskFxn(UArg a0, UArg a1) {
events &= ~SBP_PERIODIC_EVT;
if (!PeriodicEvent) { // if there is no periodic event
key = PIN_getInputValue(switch_on);
if (EliteOn) {
if (counter6994 < CLOCK_ONE_SECOND/2) { // counter6994 enable a IC after 35 counts
counter6994++;
@@ -624,20 +626,42 @@ static void SimpleBLEPeripheral_taskFxn(UArg a0, UArg a1) {
counter6994++;
}
EliteKeyPress(key);
if(key != 0){ //detect Elite battery power when no periodic event
measureBat();
}
// if(key != 0){ //detect Elite battery power when no periodic event
// measureBat();
// }
if(Free_Work_Mode){
FreeWorkMode(WorkModeData);
InitEliteInstruction();
IinADCGainControl(INSTRUCTION.ADCGainLevel);
DAC_outputV(Usercode_Correction_to_DAC(INSTRUCTION.VoutGainLevel, INSTRUCTION.VoltConstant));
Free_Work_Mode = false;
}
/* Megafly trigger */
// trig = PIN_getInputValue(MEGA_TRIG); // trigger: 1 -> 0
if (Mega_PeriodicEvent) {
Mega_PeriodicEvent = false;
PeriodicEvent = true;
}
/*
if (MEGA_getTRIG) {
MEGA_getTRIG = false;
LED_color(DARKLED, 0xFF, 0x00, 0x00);
} else if (MEGA_test_getTRIG) {
MEGA_test_getTRIG = false;
LED_color(DARKLED, 0x00, 0xFF, 0x00);
}
*/
} else {
EliteOn = TurnOnElite(key);
// EliteOn = TurnOnElite(key);
headstage_battery_volt();
uint16_t bat = ((uint16_t)(NotifyVoltBat[2]) << 8 & 0xFF00 ) |
((uint16_t)(NotifyVoltBat[3]) & 0x00FF);
PIN15_setOutputValue(enable_5v, 1); // enable 5V
TurnOn10V();
ModeLED(BT_WAIT);
EliteOn = true;
}
}
else { // if there is periodic event
if(InitPeriodicEvent){