一般规格 | |
---|---|
生产厂家 | MStar Semiconductor, Inc. |
型号 | MStar Android TV |
Android版 | 5.1.1; 1.0.0; SDK22 |
中央处理单元 | 2 cores; AArch64 Processor rev 4 (aarch64) manhattan; Max: 1400,0 MHz; Min: 1100,0 MHz |
显示 | 1920 x 1080; DPI: 240; Evaluated Size: 9,2" |
触摸屏 | NOT multitouch 1 point |
图形处理器 | Mali-450 MP; ARM; OpenGL ES-CM 1.1; OpenGL ES 2.0 |
内存RAM | 1489 MB |
快闪记忆体 | 8 GB (7.281 GB actual); 4 GB (3.723 GB actual) (见存储器映射选项卡) |
沟通 | |
电话 | None |
WiFi | mt7603u_sta |
USB主机 | Yes |
蓝牙 | Yes |
全球定位系统 | Yes |
高级功能 | |
前置摄像头 | Fail to connect to camera service |
背照相机 | No |
震动模式 | No |
支持的语言 | 172; Afrikaans; Aghem; Akan; Amharic; Arabic; Assamese; Asu; Azerbaijani; Basaa; Belarusian; Bemba; Bena; Bulgarian; Bambara; Bengali; Tibetan; Breton; Bodo; Bosnian; Catalan; Chiga; Cherokee; Czech; Welsh; Danish; Taita; German; Zarma; Duala; Jola-Fonyi; Dzongkha; Embu; Ewe; Greek; English; Esperanto; Spanish; Estonian; Basque; Ewondo; Persian; Fulah; Finnish; Filipino; Faroese; French; Irish; Galician; Swiss German; Gujarati; Gusii; Manx; Hausa; Hawaiian; Hebrew; Hindi; Croatian; Hungarian; Armenian; Indonesian; Igbo; Sichuan Yi; Icelandic; Italian; Japanese; Ngomba; Machame; Georgian; Kabyle; Kamba; Makonde; Kabuverdianu; Koyra Chiini; Kikuyu; Kazakh; Kako; Kalaallisut; Kalenjin; Khmer; Kannada; Korean; Konkani; Kashmiri; Shambala; Bafia; Cornish; Kyrgyz; Langi; Ganda; Lakota; Lingala; Lao; Lithuanian; Luba-Katanga; Luo; Luyia; Latvian; Masai; Meru; Morisyen; Malagasy; Makhuwa-Meetto; Meta'; Macedonian; Malayalam; Mongolian; Marathi; Malay; Maltese; Mundang; Burmese; Nama; Norwegian; North Ndebele; Nepali; Dutch; Kwasio; Norwegian; Ngiemboon; Nuer; Nyankole; Oromo; Oriya; Punjabi; Polish; Pashto; Portuguese; Romansh; Rundi; Romanian; Rombo; Russian; Kinyarwanda; Rwa; Samburu; Sangu; Sena; Koyraboro Senni; Sango; Tachelhit; Sinhala; Slovak; Slovenian; Shona; Somali; Albanian; Serbian; Swedish; Swahili; Congo Swahili; Tamil; Telugu; Teso; Thai; Tigrinya; Tongan; Turkish; Tasawaq; Central Atlas Tamazight; Uyghur; Ukrainian; Urdu; Uzbek; Vai; Vietnamese; Vunjo; Soga; Yangben; Yoruba; Standard Moroccan Tamazight; Chinese; Zulu |
电池 | Technology: ; Voltage: 0 |
SD Version: | 1.1 7 |
KERNEL: Linux version 3.10.40 (chenruisi@npi2) (gcc version 4.9.2 20140904 (prerelease) (crosstool-NG MStar-1.13.1-4.9-2015.04 - MStar GCC 4.9-2015.04) ) #7 SMP PREEMPT Thu Apr 13 16:40:32 CST 2017
CODENAME: REL
Mainboard: blueberry
BRAND: MStar
CPU_ABI: arm64-v8a
CPU_ABI2:
DEVICE: blueberry
DISPLAY: aosp_blueberry-userdebug 5.1.1 LMY47V 1.0.0 release-keys
FINGERPRINT: MStar/aosp_blueberry/blueberry:5.1.1/LMY47V/1.0.0:userdebug/release-keys
HARDWARE: manhattan
ID: LMY47V
TAGS: release-keys
Processor : AArch64 Processor rev 4 (aarch64)
processor : 0
processor : 1
Features : fp asimd aes pmull sha1 sha2 crc32
CPU implementer : 0x41
CPU architecture: AArch64
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
Hardware : Manhattan
Revision : 0000
Serial : 0000000000000000
GL_EXT_debug_marker
GL_OES_texture_npot
GL_OES_vertex_array_object
GL_OES_compressed_ETC1_RGB8_texture
GL_EXT_compressed_ETC1_RGB8_sub_texture
GL_OES_standard_derivatives
GL_OES_EGL_image
GL_OES_depth24
GL_ARM_rgba8
GL_ARM_mali_shader_binary
GL_OES_depth_texture
GL_OES_packed_depth_stencil
GL_EXT_texture_format_BGRA8888
GL_OES_vertex_half_float
GL_EXT_blend_minmax
GL_OES_EGL_image_external
GL_OES_EGL_sync
GL_OES_rgb8_rgba8
GL_EXT_multisampled_render_to_texture
GL_EXT_discard_framebuffer
GL_OES_get_program_binary
GL_ARM_mali_program_binary
GL_EXT_shader_texture_lod
GL_EXT_robustness
GL_OES_depth_texture_cube_map
GL_KHR_debug
GL_ARM_shader_framebuffer_fetch
GL_ARM_shader_framebuffer_fetch_depth_stencil
GL_OES_mapbuffer
<4>[15680.030010] MTUsbPollTxRxEmpty
<3>[15680.359782] binder: 15379: binder_alloc_buf failed to map pages in userspace, no vma
<6>[15680.374574] binder: 1709:1723 transaction failed 29201, size 2652-0
<7>[15680.832269] [DVFS] Current DVFS State: 2
<7>[15680.832286] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15680.832294] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<4>[15681.523032] receive cmd msg fail(-2)
<4>[15681.523099] tx_kickout_fail_count = 0
<4>[15681.523103] tx_timeout_fail_count = 0
<4>[15681.523106] rx_receive_fail_count = 0
<4>[15681.523110] alloc_cmd_msg = 5765
<4>[15681.523113] free_cmd_msg = 5765
<7>[15681.523379] [35mFunction = is_default_cma_buffer, Line = 340, check from 0x5C400000 to 0x5D400000[m
<11>[15681.554301] init: untracked pid 15272 killed by signal 9
<6>[15681.732857] usbcore: deregistering interface driver mt_drv
<7>[15681.842355] [DVFS] Current DVFS State: 2
<7>[15681.842377] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15681.842386] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<4>[15681.892276] rtusb_disconnect: unregister usbnet usb-mstar-1
<4>[15681.982456] OS_NumOfMemAlloc = 18805, OS_NumOfMemFree = 18668
<4>[15681.982475] OS_NumOfPktAlloc = 8390, OS_NumOfPktFree = 8388
<4>[15681.982488] RtmpOSNetDevDetach(): RtmpOSNetDeviceDetach(), dev->name=wlan0!
<4>[15682.102358] 80211> unregister/free wireless device
<4>[15682.149489] OS_NumOfMemAlloc = 18805, OS_NumOfMemFree = 18805
<4>[15682.149502] OS_NumOfPktAlloc = 8390, OS_NumOfPktFree = 8389
<4>[15682.149507] RTUSB disconnect successfully
<4>[15682.153214] <--- rtusb exit
<6>[15682.551712] cfg80211: Calling CRDA to update world regulatory domain
<4>[15682.794528] rtusb init mt_drv --->
<4>[15682.802853]
<4>[15682.802853]
<4>[15682.802853] === pAd = ffffff8008800000, size = 1682968 ===
<4>[15682.802853]
<4>[15682.802887] allocate tx ringidx 0
<4>[15682.802898] RTMPQMemAddr[0]
<4>[15682.802903] allocate tx ringidx 1
<4>[15682.802906] RTMPQMemAddr[1]
<4>[15682.802909] allocate tx ringidx 2
<4>[15682.802916] RTMPQMemAddr[2]
<4>[15682.802919] allocate tx ringidx 3
<4>[15682.802923] RTMPQMemAddr[3]
<4>[15682.802926] allocate tx ringidx 4
<4>[15682.802930] RTMPQMemAddr[4]
<4>[15682.802933] allocate tx ringidx 5
<4>[15682.802936] RTMPQMemAddr[5]
<4>[15682.802939] allocate tx ringidx 6
<4>[15682.802942] RTMPQMemAddr[6]
<4>[15682.802946] allocate tx ringidx 7
<4>[15682.802951] RTMPQMemAddr[7]
<4>[15682.802954] allocate tx ringidx 8
<4>[15682.802958] RTMPQMemAddr[8]
<4>[15682.802962] allocate tx ringidx 9
<4>[15682.802966] RTMPQMemAddr[9]
<4>[15682.802970] allocate tx ringidx 10
<4>[15682.802974] RTMPQMemAddr[10]
<4>[15682.802977] allocate tx ringidx 11
<4>[15682.802981] RTMPQMemAddr[11]
<4>[15682.802984] allocate tx ringidx 12
<4>[15682.802988] RTMPQMemAddr[12]
<4>[15682.802990] allocate tx ringidx 13
<4>[15682.802994] RTMPQMemAddr[13]
<4>[15682.802998] allocate tx ringidx 0
<4>[15682.803003] RTMPQMemAddr[14]
<4>[15682.803006] allocate tx ringidx 1
<4>[15682.803009] RTMPQMemAddr[15]
<4>[15682.803012] allocate tx ringidx 2
<4>[15682.803016] RTMPQMemAddr[16]
<4>[15682.803019] allocate tx ringidx 3
<4>[15682.803022] RTMPQMemAddr[17]
<4>[15682.803025] allocate tx ringidx 4
<4>[15682.803029] RTMPQMemAddr[18]
<4>[15682.803032] allocate tx ringidx 5
<4>[15682.803036] RTMPQMemAddr[19]
<4>[15682.803040] allocate tx ringidx 6
<4>[15682.803043] RTMPQMemAddr[20]
<4>[15682.803046] allocate tx ringidx 7
<4>[15682.803050] RTMPQMemAddr[21]
<4>[15682.803053] allocate tx ringidx 8
<4>[15682.803056] RTMPQMemAddr[22]
<4>[15682.803060] allocate tx ringidx 9
<4>[15682.803063] RTMPQMemAddr[23]
<4>[15682.803066] allocate tx ringidx 10
<4>[15682.803070] RTMPQMemAddr[24]
<4>[15682.803073] allocate tx ringidx 11
<4>[15682.803077] RTMPQMemAddr[25]
<4>[15682.803080] allocate tx ringidx 12
<4>[15682.803083] RTMPQMemAddr[26]
<4>[15682.803086] allocate tx ringidx 13
<4>[15682.803090] RTMPQMemAddr[27]
<4>[15682.803093] allocate tx ringidx 0
<4>[15682.803097] RTMPQMemAddr[28]
<4>[15682.803099] allocate tx ringidx 1
<4>[15682.803103] RTMPQMemAddr[29]
<4>[15682.803106] allocate tx ringidx 2
<4>[15682.803110] RTMPQMemAddr[30]
<4>[15682.803113] allocate tx ringidx 3
<4>[15682.803116] RTMPQMemAddr[31]
<4>[15682.803119] allocate tx ringidx 4
<4>[15682.803122] RTMPQMemAddr[32]
<4>[15682.803127] allocate tx ringidx 5
<4>[15682.803131] RTMPQMemAddr[33]
<4>[15682.803134] allocate tx ringidx 6
<4>[15682.803138] RTMPQMemAddr[34]
<4>[15682.803140] allocate tx ringidx 7
<4>[15682.803144] RTMPQMemAddr[35]
<4>[15682.803147] allocate tx ringidx 8
<4>[15682.803150] RTMPQMemAddr[36]
<4>[15682.803153] allocate tx ringidx 9
<4>[15682.803157] RTMPQMemAddr[37]
<4>[15682.803160] allocate tx ringidx 10
<4>[15682.803163] RTMPQMemAddr[38]
<4>[15682.803167] allocate tx ringidx 11
<4>[15682.803170] RTMPQMemAddr[39]
<4>[15682.803173] allocate tx ringidx 12
<4>[15682.803177] RTMPQMemAddr[40]
<4>[15682.803180] allocate tx ringidx 13
<4>[15682.803184] RTMPQMemAddr[41]
<4>[15682.803187] allocate tx ringidx 0
<4>[15682.803191] RTMPQMemAddr[42]
<4>[15682.803195] allocate tx ringidx 1
<4>[15682.803198] RTMPQMemAddr[43]
<4>[15682.803201] allocate tx ringidx 2
<4>[15682.803204] RTMPQMemAddr[44]
<4>[15682.803207] allocate tx ringidx 3
<4>[15682.803213] RTMPQMemAddr[45]
<4>[15682.803215] allocate tx ringidx 4
<4>[15682.803220] RTMPQMemAddr[46]
<4>[15682.803223] allocate tx ringidx 5
<4>[15682.803226] RTMPQMemAddr[47]
<4>[15682.803229] allocate tx ringidx 6
<4>[15682.803233] RTMPQMemAddr[48]
<4>[15682.803237] allocate tx ringidx 7
<4>[15682.803241] RTMPQMemAddr[49]
<4>[15682.803245] allocate tx ringidx 8
<4>[15682.803255] RTMPQMemAddr[50]
<4>[15682.803259] allocate tx ringidx 9
<4>[15682.803263] RTMPQMemAddr[51]
<4>[15682.803266] allocate tx ringidx 10
<4>[15682.803269] RTMPQMemAddr[52]
<4>[15682.803273] allocate tx ringidx 11
<4>[15682.803276] RTMPQMemAddr[53]
<4>[15682.803279] allocate tx ringidx 12
<4>[15682.803282] RTMPQMemAddr[54]
<4>[15682.803286] allocate tx ringidx 13
<4>[15682.803289] RTMPQMemAddr[55]
<4>[15682.803292] allocate tx ringidx 0
<4>[15682.803296] RTMPQMemAddr[56]
<4>[15682.803299] allocate tx ringidx 1
<4>[15682.803303] RTMPQMemAddr[57]
<4>[15682.803306] allocate tx ringidx 2
<4>[15682.803309] RTMPQMemAddr[58]
<4>[15682.803313] allocate tx ringidx 3
<4>[15682.803316] RTMPQMemAddr[59]
<4>[15682.803319] allocate tx ringidx 4
<4>[15682.803322] RTMPQMemAddr[60]
<4>[15682.803326] allocate tx ringidx 5
<4>[15682.803329] RTMPQMemAddr[61]
<4>[15682.803332] allocate tx ringidx 6
<4>[15682.803337] RTMPQMemAddr[62]
<4>[15682.803340] allocate tx ringidx 7
<4>[15682.803343] RTMPQMemAddr[63]
<4>[15682.803346] allocate tx ringidx 8
<4>[15682.803351] RTMPQMemAddr[64]
<4>[15682.803354] allocate tx ringidx 9
<4>[15682.803358] RTMPQMemAddr[65]
<4>[15682.803363] allocate tx ringidx 10
<4>[15682.803367] RTMPQMemAddr[66]
<4>[15682.803370] allocate tx ringidx 11
<4>[15682.803373] RTMPQMemAddr[67]
<4>[15682.803376] allocate tx ringidx 12
<4>[15682.803380] RTMPQMemAddr[68]
<4>[15682.803383] allocate tx ringidx 13
<4>[15682.803387] RTMPQMemAddr[69]
<4>[15682.803394] RTMPQMemAddr[70]
<4>[15682.803401] RTMPQMemAddr[71]
<4>[15682.803407] RTMPQMemAddr[72]
<4>[15682.803411] RTMPQMemAddr[73]
<4>[15682.803415] RTMPQMemAddr[74]
<4>[15682.803419] RTMPQMemAddr[75]
<4>[15682.803424] RTMPQMemAddr[76]
<4>[15682.803428] RTMPQMemAddr[77]
<4>[15682.803431] RTMPQMemAddr[78]
<4>[15682.803435] RTMPQMemAddr[79]
<4>[15682.803439] RTMPQMemAddr[80]
<4>[15682.803452] <-- RTMPAllocTxRxRingMemory, Status=0
<4>[15682.803876] <-- RTMPAllocAdapterBlock, Status=0
<4>[15682.810212] STA Driver version-JEDI.L0.MP1.mt7603u.v1.8
<4>[15682.810232] Compile time-Apr 6 2017,20:37:42
<4>[15682.810241] RtmpChipOpsHook(760): Not support for HIF_MT yet!
<4>[15682.810245] mt7603_init()-->
<4>[15682.810252] mt_bcn_buf_init(295): Not support for HIF_MT yet!
<4>[15682.810256] <--mt7603_init()
<4>[15682.810261] Endpoint(8) is for In-band Command
<4>[15682.810265] Endpoint(4) is for WMM0 AC1
<4>[15682.810268] Endpoint(5) is for WMM0 AC0
<4>[15682.810272] Endpoint(6) is for WMM0 AC2
<4>[15682.810275] Endpoint(7) is for WMM0 AC3
<4>[15682.810279] Endpoint(9) is for WMM1 AC0
<4>[15682.810282] Endpoint(84) is for Data-In
<4>[15682.810285] Endpoint(85) is for Command Rsp
<4>[15682.810424] 80211> RFICType= 3, NumOfChan= 58
<4>[15682.810429] 80211> Number of rate = 12
<4>[15682.810437] 80211> CurTxPower = 0 dBm
<4>[15682.812765] 80211> CFG80211_Register
<7>[15682.853246] [DVFS] Current DVFS State: 2
<7>[15682.853261] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15682.853267] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<6>[15682.854272] usbcore: registered new interface driver mt_drv
<7>[15683.242545] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1400000KHz to 1308695KHz[m
<7>[15683.242570] [36mcaller: integrator_set_target_on_demand, target_freq: 1308695 KHz[m
<7>[15683.242588] [DVFS] Current Temperature: 64
<7>[15683.242592] [DVFS] Normal Mode: CPU Clock: 1308MHz
<7>[15683.242610] [35m[INFO] Data Exchange Count to User Space: 15449[m
<7>[15683.242614] [35m[INFO] Voltage: 115[m
<7>[15683.242619] [35m[INFO] VoltageType: 0[m
<7>[15683.243363] [33m[result is 0] input: 15449, wake_up wait_queue for write_down[m
<7>[15683.243554] [35m[INFO] Data Exchange Count from User Space: 15449[m
<7>[15683.243564] [DVFS] CPU Power: 115
<7>[15683.243574] [35m[INFO] Data Exchange Count to User Space: 15450[m
<7>[15683.243578] [35m[INFO] Voltage: 100[m
<7>[15683.243581] [35m[INFO] VoltageType: 1[m
<7>[15683.243637] [33m[result is 0] input: 15450, wake_up wait_queue for write_down[m
<7>[15683.243650] [35m[INFO] Data Exchange Count from User Space: 15450[m
<7>[15683.243654] [DVFS] Core Power: 100
<7>[15683.243824] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1308
<7>[15683.243836] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1308695 KHz to 1308000 KHz[m
<7>[15683.243849] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1400000 KHZ to 1308000 KHZ[m
<7>[15683.342419] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1308000KHz to 1400000KHz[m
<7>[15683.342445] [36mcaller: integrator_set_target_on_demand, target_freq: 1400000 KHz[m
<7>[15683.342461] [DVFS] [[====================================
<7>[15683.342666] [DVFS] CPU Clock: 1308MHz
<7>[15683.342671] [DVFS] Reference Temperature Data (CPU): 0x018f
<7>[15683.342675] [DVFS] Current Temperature Sensor Data (CPU): 0x0170
<7>[15683.342679] [DVFS] Temperature (CPU): 66
<7>[15683.342683] [DVFS] CPU Power: 1150mV
<7>[15683.342687] [DVFS] Core Power: 1000mV
<7>[15683.342691] [DVFS] ====================================]]
<7>[15683.342697] [DVFS] Current Temperature: 66
<7>[15683.342701] [DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[15683.342725] [35m[INFO] Data Exchange Count to User Space: 15451[m
<7>[15683.342730] [35m[INFO] Voltage: 120[m
<7>[15683.342734] [35m[INFO] VoltageType: 0[m
<7>[15683.343662] [33m[result is 0] input: 15451, wake_up wait_queue for write_down[m
<7>[15683.343799] [35m[INFO] Data Exchange Count from User Space: 15451[m
<7>[15683.343805] [DVFS] CPU Power: 120
<7>[15683.343816] [35m[INFO] Data Exchange Count to User Space: 15452[m
<7>[15683.343820] [35m[INFO] Voltage: 100[m
<7>[15683.343824] [35m[INFO] VoltageType: 1[m
<7>[15683.343905] [33m[result is 0] input: 15452, wake_up wait_queue for write_down[m
<7>[15683.343917] [35m[INFO] Data Exchange Count from User Space: 15452[m
<7>[15683.343929] [DVFS] Core Power: 100
<7>[15683.344037] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>[15683.344047] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz[m
<7>[15683.344059] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1308000 KHZ to 1400000 KHZ[m
<7>[15683.863350] [DVFS] Current DVFS State: 2
<7>[15683.863374] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15683.863385] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<4>[15684.278302] cfg_mode=5
<4>[15684.278317] cfg_mode=5
<4>[15684.278324] wmode_band_equal(): Band Equal!
<4>[15684.278959] Key1Str is Invalid key length(0) or Type(0)
<4>[15684.279000] Key2Str is Invalid key length(0) or Type(0)
<4>[15684.279031] Key3Str is Invalid key length(0) or Type(0)
<4>[15684.279062] Key4Str is Invalid key length(0) or Type(0)
<4>[15684.279777] WOW_GPIO = 2
<4>[15684.279810] WOW_Enable = 1
<4>[15684.279861] WOW_Hold = 100000, equal to 100000 us
<4>[15684.280671] WakeupInterface = 2
<4>[15684.280721] GPIOHighLow = 1
<4>[15684.280748] USBAggregation = 1
<4>[15684.281183] FW Version:_mt7603mp
<4>[15684.281208] FW Build Date:20151020155902
<4>[15684.281858] CmdReStartDLRsp: WiFI FW Download Success
<4>[15684.282654] CmdAddressLenReq:(ret = 0)
<4>[15684.283558] CmdFwStartReq: override = 1, address = 1048576
<4>[15684.287433] CmdStartDLRsp: WiFI FW Download Success
<4>[15684.308445] AsicDMASchedulerInit(): DMA Scheduler Mode=0(LMAC)
<4>[15684.317233] efuse_probe: efuse = 10000012
<4>[15684.317257] RtmpChipOpsEepromHook::e2p_type=0, inf_Type=2
<4>[15684.317261] RtmpEepromGetDefault::e2p_dafault=1
<4>[15684.317293] RtmpChipOpsEepromHook: E2P type(1), E2pAccessMode = 0, E2P default = 1
<4>[15684.317297] NVM is EFUSE mode
<4>[15684.317351] 1. Phy Mode = 14
<4>[15684.317357] NVM is Efuse and its size =1d[1e0-1fc]
<4>[15684.326913] Load EEPROM buffer from efuse, and change to BIN buffer mode
<4>[15684.689217] efuse_probe: efuse = 10000012
<4>[15684.689234] RtmpChipOpsEepromHook::forceMode: 4 , infType: 2
<4>[15684.689238] NVM is BIN mode
<7>[15684.842281] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1400000KHz to 1100000KHz[m
<7>[15684.842308] [36mcaller: integrator_set_target_on_demand, target_freq: 1100000 KHz[m
<7>[15684.842326] [DVFS] Current Temperature: 66
<7>[15684.842331] [DVFS] Normal Mode: CPU Clock: 1100MHz
<7>[15684.842447] [35m[INFO] Data Exchange Count to User Space: 15453[m
<7>[15684.842452] [35m[INFO] Voltage: 105[m
<7>[15684.842457] [35m[INFO] VoltageType: 0[m
<7>[15684.844202] [33m[result is 0] input: 15453, wake_up wait_queue for write_down[m
<7>[15684.844331] [35m[INFO] Data Exchange Count from User Space: 15453[m
<7>[15684.844337] [DVFS] CPU Power: 105
<7>[15684.844349] [35m[INFO] Data Exchange Count to User Space: 15454[m
<7>[15684.844354] [35m[INFO] Voltage: 100[m
<7>[15684.844359] [35m[INFO] VoltageType: 1[m
<7>[15684.844442] [33m[result is 0] input: 15454, wake_up wait_queue for write_down[m
<7>[15684.844458] [35m[INFO] Data Exchange Count from User Space: 15454[m
<7>[15684.844463] [DVFS] Core Power: 100
<7>[15684.844470] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1100
<7>[15684.844483] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1100000 KHz to 1100000 KHz[m
<7>[15684.844497] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1400000 KHZ to 1100000 KHZ[m
<4>[15684.851017] Country Region from e2p = ffff
<4>[15684.851047] tssi_1_target_pwr_g_band = 29
<4>[15684.851059] 2. Phy Mode = 14
<4>[15684.851069] 3. Phy Mode = 14
<4>[15684.851077] NICInitializeAsic(847): Not support rtmp_mac_sys_reset () for HIF_MT yet!
<4>[15684.851083] mt_mac_init()-->
<4>[15684.852397] mt7603_init_mac_cr()-->
<4>[15684.866873] AsicSetMacMaxLen(2210): Set the Max RxPktLen=1024!
<4>[15684.866888] <--mt_mac_init()
<7>[15684.872357] [DVFS] Current DVFS State: 2
<7>[15684.872399] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15684.872409] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<4>[15684.931468] WTBL Segment 1 info:
<4>[15684.931485] MemBaseAddr/FID:0x28000/0
<4>[15684.931490] EntrySize/Cnt:32/128
<4>[15684.931494] WTBL Segment 2 info:
<4>[15684.931498] MemBaseAddr/FID:0x40000/0
<4>[15684.931502] EntrySize/Cnt:64/128
<4>[15684.931506] WTBL Segment 3 info:
<4>[15684.931511] MemBaseAddr/FID:0x42000/64
<4>[15684.931515] EntrySize/Cnt:64/128
<4>[15684.931519] WTBL Segment 4 info:
<4>[15684.931523] MemBaseAddr/FID:0x44000/128
<4>[15684.931527] EntrySize/Cnt:32/128
<4>[15684.932452] MtAsicACQueue: Write CR:21510, Value=10421
<4>[15684.933410] MtAsicACQueue: Write CR:21500, Value=10421
<4>[15684.943414] AntCfgInit(3573): Not support for HIF_MT yet!
<4>[15684.943857] RTMPSetPhyMode(): channel out of range, use first ch=1
<4>[15684.943870] RTMPSetPhyMode: Update for STA
<4>[15684.943891] RTMPSetPhyMode: Update for AP
<4>[15684.943897] MlmeUpdateTxRates: Update for GO
<4>[15684.943904] RTMPSetPhyMode: Update for APCLI
<4>[15684.944335] MCS Set = ff ff 00 00 01
<4>[15684.945438] MT76xxAndesWOWInit:
<4>[15684.945490] MT76xxAndesWOWInit:(WakeupInterface=2, GPIONumber=2, GPIOTimer=100000, GpioParameter=0x3)
<4>[15684.945634] EventExtCmdWakeupOptionRsp: u4PfCmdType = 0x2e u4Status = 0x0
<4>[15684.945672] MT76xxAndesWOWInit:(ret = 0)
<4>[15684.945677] <==== rt28xx_init, Status=0
<4>[15684.954207] 80211> re-init bands...
<4>[15684.954230] 80211> RFICType= 1, NumOfChan= 14
<4>[15684.954234] 80211> Number of rate = 12
<4>[15684.954238] 80211> CurTxPower = 0 dBm
<4>[15684.954766] mt7603_set_ed_cca: TURN OFF EDCCA mac 0x10618 = 0xd7083f0f
<4>[15684.954783] Number of Packet Allocated in open = 5225
<4>[15684.954787] Number of Packet Freed in open = 5221
<4>[15684.954793] WiFi Startup Cost (wlan0): 0.700s
<4>[15685.023264] 80211> CFG80211_OpsPmksaFlush ==>
<7>[15685.142294] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1100000KHz to 1400000KHz[m
<7>[15685.142318] [36mcaller: integrator_set_target_on_demand, target_freq: 1400000 KHz[m
<7>[15685.142341] [DVFS] Current Temperature: 66
<7>[15685.142345] [DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[15685.142362] [35m[INFO] Data Exchange Count to User Space: 15455[m
<7>[15685.142366] [35m[INFO] Voltage: 120[m
<7>[15685.142371] [35m[INFO] VoltageType: 0[m
<7>[15685.143229] [33m[result is 0] input: 15455, wake_up wait_queue for write_down[m
<7>[15685.143389] [35m[INFO] Data Exchange Count from User Space: 15455[m
<7>[15685.143395] [DVFS] CPU Power: 120
<7>[15685.143406] [35m[INFO] Data Exchange Count to User Space: 15456[m
<7>[15685.143411] [35m[INFO] Voltage: 100[m
<7>[15685.143415] [35m[INFO] VoltageType: 1[m
<7>[15685.143824] [33m[result is 0] input: 15456, wake_up wait_queue for write_down[m
<7>[15685.143842] [35m[INFO] Data Exchange Count from User Space: 15456[m
<7>[15685.143847] [DVFS] Core Power: 100
<7>[15685.143955] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>[15685.143966] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz[m
<7>[15685.143979] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1100000 KHZ to 1400000 KHZ[m
<7>[15685.882283] [DVFS] [[====================================
<7>[15685.882515] [DVFS] CPU Clock: 1308MHz
<7>[15685.882519] [DVFS] Reference Temperature Data (CPU): 0x018f
<7>[15685.882523] [DVFS] Current Temperature Sensor Data (CPU): 0x0171
<7>[15685.882527] [DVFS] Temperature (CPU): 65
<7>[15685.882532] [DVFS] CPU Power: 1200mV
<7>[15685.882535] [DVFS] Core Power: 1000mV
<7>[15685.882538] [DVFS] ====================================]]
<7>[15685.882544] [DVFS] Current DVFS State: 2
<7>[15685.882548] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15685.882557] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<7>[15686.892300] [DVFS] Current DVFS State: 2
<7>[15686.892321] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15686.892331] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<7>[15687.146598] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1400000KHz to 1247826KHz[m
<7>[15687.146624] [36mcaller: integrator_set_target_on_demand, target_freq: 1247826 KHz[m
<7>[15687.146643] [DVFS] Current Temperature: 65
<7>[15687.146647] [DVFS] Normal Mode: CPU Clock: 1247MHz
<7>[15687.146767] [35m[INFO] Data Exchange Count to User Space: 15457[m
<7>[15687.146771] [35m[INFO] Voltage: 110[m
<7>[15687.146776] [35m[INFO] VoltageType: 0[m
<7>[15687.148344] [33m[result is 0] input: 15457, wake_up wait_queue for write_down[m
<7>[15687.149031] [35m[INFO] Data Exchange Count from User Space: 15457[m
<7>[15687.149046] [DVFS] CPU Power: 110
<7>[15687.149057] [35m[INFO] Data Exchange Count to User Space: 15458[m
<7>[15687.149061] [35m[INFO] Voltage: 100[m
<7>[15687.149065] [35m[INFO] VoltageType: 1[m
<7>[15687.149491] [33m[result is 0] input: 15458, wake_up wait_queue for write_down[m
<7>[15687.149523] [35m[INFO] Data Exchange Count from User Space: 15458[m
<7>[15687.149528] [DVFS] Core Power: 100
<7>[15687.149534] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1247
<7>[15687.149543] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1247826 KHz to 1247000 KHz[m
<7>[15687.149553] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1400000 KHZ to 1247000 KHZ[m
<7>[15687.242327] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1247000KHz to 1400000KHz[m
<7>[15687.242355] [36mcaller: integrator_set_target_on_demand, target_freq: 1400000 KHz[m
<7>[15687.242372] [DVFS] Current Temperature: 65
<7>[15687.242376] [DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[15687.242395] [35m[INFO] Data Exchange Count to User Space: 15459[m
<7>[15687.242399] [35m[INFO] Voltage: 120[m
<7>[15687.242404] [35m[INFO] VoltageType: 0[m
<7>[15687.243174] [33m[result is 0] input: 15459, wake_up wait_queue for write_down[m
<7>[15687.243572] [35m[INFO] Data Exchange Count from User Space: 15459[m
<7>[15687.243586] [DVFS] CPU Power: 120
<7>[15687.243603] [35m[INFO] Data Exchange Count to User Space: 15460[m
<7>[15687.243608] [35m[INFO] Voltage: 100[m
<7>[15687.243611] [35m[INFO] VoltageType: 1[m
<7>[15687.245401] [33m[result is 0] input: 15460, wake_up wait_queue for write_down[m
<7>[15687.245439] [35m[INFO] Data Exchange Count from User Space: 15460[m
<7>[15687.245444] [DVFS] Core Power: 100
<7>[15687.245553] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>[15687.245561] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz[m
<7>[15687.245571] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1247000 KHZ to 1400000 KHZ[m
<7>[15687.902273] [DVFS] Current DVFS State: 2
<7>[15687.902296] [DVFS] Current Valid CPU Clock: 1500MHz
<7>[15687.902307] [34mFunction = Mdrv_CPU_T_sensor_Check_callback, Line = 969, do Mdrv_CPU_T_sensor_Check_callback: 1500000, forcibly_set_target_flag is 0[m
<4>[15688.122848] 80211> CFG80211_OpsPmksaFlush ==>
<4>[15688.174036] mt7603_switch_channel(): Switch to Ch#1(2T2R), BBP_BW=0
<4>[15688.239384] mt7603_switch_channel(): Switch to Ch#2(2T2R), BBP_BW=0
<4>[15688.301471] mt7603_switch_channel(): Switch to Ch#3(2T2R), BBP_BW=0
<4>[15688.358165] mt7603_switch_channel(): Switch to Ch#4(2T2R), BBP_BW=0
<4>[15688.418909] mt7603_switch_channel(): Switch to Ch#5(2T2R), BBP_BW=0
<4>[15688.488608] mt7603_switch_channel(): Switch to Ch#6(2T2R), BBP_BW=0
<4>[15688.548261] mt7603_switch_channel(): Switch to Ch#7(2T2R), BBP_BW=0
<4>[15688.608271] mt7603_switch_channel(): Switch to Ch#8(2T2R), BBP_BW=0
<7>[15688.642280] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1400000KHz to 1339130KHz[m
<7>[15688.642303] [36mcaller: integrator_set_target_on_demand, target_freq: 1339130 KHz[m
<7>[15688.642318] [DVFS] [[====================================
<7>[15688.642524] [DVFS] CPU Clock: 1400MHz
<7>[15688.642529] [DVFS] Reference Temperature Data (CPU): 0x018f
<7>[15688.642533] [DVFS] Current Temperature Sensor Data (CPU): 0x0170
<7>[15688.642537] [DVFS] Temperature (CPU): 66
<7>[15688.642540] [DVFS] CPU Power: 1200mV
<7>[15688.642544] [DVFS] Core Power: 1000mV
<7>[15688.642547] [DVFS] ====================================]]
<7>[15688.642554] [DVFS] Current Temperature: 66
<7>[15688.642558] [DVFS] Normal Mode: CPU Clock: 1339MHz
<7>[15688.642677] [35m[INFO] Data Exchange Count to User Space: 15461[m
<7>[15688.642682] [35m[INFO] Voltage: 115[m
<7>[15688.642686] [35m[INFO] VoltageType: 0[m
<7>[15688.643625] [33m[result is 0] input: 15461, wake_up wait_queue for write_down[m
<7>[15688.643823] [35m[INFO] Data Exchange Count from User Space: 15461[m
<7>[15688.643831] [DVFS] CPU Power: 115
<7>[15688.643843] [35m[INFO] Data Exchange Count to User Space: 15462[m
<7>[15688.643864] [35m[INFO] Voltage: 100[m
<7>[15688.643869] [35m[INFO] VoltageType: 1[m
<7>[15688.644020] [33m[result is 0] input: 15462, wake_up wait_queue for write_down[m
<7>[15688.644038] [35m[INFO] Data Exchange Count from User Space: 15462[m
<7>[15688.644042] [DVFS] Core Power: 100
<7>[15688.644049] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1339
<7>[15688.644060] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1339130 KHz to 1339000 KHz[m
<7>[15688.644073] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1400000 KHZ to 1339000 KHZ[m
<4>[15688.668564] mt7603_switch_channel(): Switch to Ch#9(2T2R), BBP_BW=0
<4>[15688.730190] mt7603_switch_channel(): Switch to Ch#10(2T2R), BBP_BW=0
<7>[15688.742328] [35mFunction = integrator_set_target_on_demand, Line = 610, set copufreq from 1339000KHz to 1280782KHz[m
<7>[15688.742351] [36mcaller: integrator_set_target_on_demand, target_freq: 1280782 KHz[m
<7>[15688.742368] [DVFS] Current Temperature: 66
<7>[15688.742372] [DVFS] Normal Mode: CPU Clock: 1280MHz
<7>[15688.742494] [35m[INFO] Data Exchange Count to User Space: 15463[m
<7>[15688.742498] [35m[INFO] Voltage: 110[m
<7>[15688.742502] [35m[INFO] VoltageType: 0[m
<7>[15688.743252] [33m[result is 0] input: 15463, wake_up wait_queue for write_down[m
<7>[15688.744415] [35m[INFO] Data Exchange Count from User Space: 15463[m
<7>[15688.744436] [DVFS] CPU Power: 110
<7>[15688.744462] [35m[INFO] Data Exchange Count to User Space: 15464[m
<7>[15688.744466] [35m[INFO] Voltage: 100[m
<7>[15688.744470] [35m[INFO] VoltageType: 1[m
<7>[15688.744549] [33m[result is 0] input: 15464, wake_up wait_queue for write_down[m
<7>[15688.744567] [35m[INFO] Data Exchange Count from User Space: 15464[m
<7>[15688.744571] [DVFS] Core Power: 100
<7>[15688.744579] [DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1280
<7>[15688.744590] [35mFunction = change_cpus_timer, Line = 742, the target_freq is changed(by MDrvDvfsProc), from 1280782 KHz to 1280000 KHz[m
<7>[15688.744603] [31mFunction = change_cpus_timer, Line = 773, cpu0 do: [cpu0] adjust cpufreq from 1339000 KHZ to 1280000 KHZ[m
<4>[15688.788876] mt7603_switch_channel(): Switch to Ch#11(2T2R), BBP_BW=0
# begin build properties
# autogenerated by buildinfo.sh
ro.build.id=LMY47V
ro.build.display.id=aosp_blueberry-userdebug 5.1.1 LMY47V 1.0.0 release-keys
ro.build.version.incremental=1.0.0
ro.build.version.sdk=22
ro.build.version.codename=REL
ro.build.version.all_codenames=REL
ro.build.version.release=5.1.1
ro.build.version.security_patch=2015-11-01
ro.build.version.base_os=
ro.build.date=Fri Apr 13 15:49:43 CST 2018
ro.build.sw_time=Fri Apr 13 15:49:43 CST 2018
ro.build.date.utc=1523605783
ro.build.type=userdebug
ro.build.user=zengwei
ro.build.host=npi2
ro.build.tags=release-keys
ro.build.flavor=aosp_blueberry-userdebug
ro.product.model=MStar Android TV
ro.product.brand=MStar
ro.product.name=aosp_blueberry
ro.product.device=blueberry
ro.product.board=blueberry
ro.build.version.svn=Revision:2696
# ro.product.cpu.abi and ro.product.cpu.abi2 are obsolete,
# use ro.product.cpu.abilist instead.
ro.product.cpu.abi=arm64-v8a
ro.product.cpu.abilist=arm64-v8a,armeabi-v7a,armeabi
ro.product.cpu.abilist32=armeabi-v7a,armeabi
ro.product.cpu.abilist64=arm64-v8a
ro.product.manufacturer=MStar Semiconductor, Inc.
ro.product.locale.language=zh
ro.product.locale.region=CN
ro.wifi.channels=
ro.board.platform=manhattan
# ro.build.product is obsolete; use ro.product.device
ro.build.product=blueberry
# Do not try to parse description, fingerprint, or thumbprint
ro.build.description=aosp_blueberry-userdebug 5.1.1 LMY47V 1.0.0 release-keys
ro.build.fingerprint=MStar/aosp_blueberry/blueberry:5.1.1/LMY47V/1.0.0:userdebug/release-keys
ro.build.characteristics=tv
ro.software.version_id=V8-S68AT02-LF1V169
ro.hardware.version_id=MS6488
ro.build.company=TCL Multimedia
ro.tcl.default_boot_mode=Launcher
# end build properties
#
# ADDITIONAL_BUILD_PROPERTIES
#
persist.sys.language=en
persist.sys.country=CN
persist.sys.timezone=Asia/Shanghai
mstar.bootlogo.gop=3
mstar.close.bootlogo.gop.frame=2
ms.disable.ds=0
mstar.forcelandscape=1
persist.sys.strictmode.disable=true
persist.sys.bootfromui=ui
mstar.build.mstartv=mi
mstar.str.enable=true
persist.sys.fastboot=true
wifi.interface=wlan0
ro.opengles.version=131072
ro.sf.lcd_density=240
media.aac_51_output_enabled=true
config.disable_bluetooth=0
chrome.tv.hole_threshold=0
debug.hwui.render_dirty_regions=false
service.adb.tcp.port=5555
persist.adb.tcp.port=5555
persist.service.adb.enable=1
ro.adb.secure=1
ro.mstar.lmkd.minfree=15600,18000,24000,28000,40000,60000
ro.mstar.lmkd.adj=0,1,2,3,9,15
mstar.framebuffer.format=3
mstar.gop=0
mstar.gwin=0
mstar.gopfrc=2
mstar.lvds-off=0
mstar.desk-display-mode=0
mstar.pdp-xoffset=0
mstar.pmem.poolsize=33554432
dfb_jpd_write_buffer=SkiaDecodeMutex
mstar.mstplayer.bd=1
mstar.meta.sf=0
mstar.mediascanner_onlysd=1
mstar.resmgr_v4.enable=1
dalvik.vm.heapstartsize=8m
dalvik.vm.heapgrowthlimit=128m
dalvik.vm.heapsize=256m
dalvik.vm.heaptargetutilization=0.75
dalvik.vm.heapminfree=512k
dalvik.vm.heapmaxfree=8m
ro.com.android.dateformat=MM-dd-yyyy
ro.config.ringtone=Ring_Synth_04.ogg
ro.config.notification_sound=pixiedust.ogg
ro.carrier=unknown
ro.config.alarm_alert=Alarm_Classic.ogg
ro.setupwizard.mode=OPTIONAL
ro.com.google.gmsversion=5.1_r2
persist.sys.dalvik.vm.lib.2=libart.so
dalvik.vm.isa.arm64.features=default
dalvik.vm.isa.arm.features=div
dalvik.vm.lockprof.threshold=500
dalvik.vm.dexopt-flags=m=y
net.bt.name=Android
dalvik.vm.stack-trace-file=/data/anr/traces.txt
mt7603u_sta 1551834 1 - Live 0x0000000000000000 (O)
cfg80211 357762 1 mt7603u_sta, Live 0x0000000000000000
tcl_sim_kb 4362 0 - Live 0x0000000000000000 (P)
bluetooth 200643 0 - Live 0x0000000000000000
uhid 5748 0 - Live 0x0000000000000000
rtkm 2127 0 - Live 0x0000000000000000 (O)
mtprealloc 2609 1 mt7603u_sta, Live 0x0000000000000000 (PO)
rtk_btusb 32915 0 - Live 0x0000000000000000
firmware_class 11229 2 mt7603u_sta,rtk_btusb, Live 0x0000000000000000
ntfs_3g 198434 0 - Live 0x0000000000000000 (O)
mali 177471 55 - Live 0x0000000000000000 (O)
RAM: 1489 MB
System RAM: 978.000MB
System RAM: 511.000MB
Flash: 8 GB (7.281 GB actual); 4 GB (3.723 GB actual)
mmcblk0: 7.281 GB
sda: 3.723 GB
触摸屏为 MStar Semiconductor, Inc. MStar Android TV
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$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm
$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm
$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
$251.73 MStar Debug Tool Debug USB Upgrade Tool
$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera
$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator
$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance
$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD
$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
新电池 MStar Semiconductor, Inc. MStar Android TV
$155.94 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD
$22.14 4K 8/4MP 1/1.8 Inch CMOS StarLight F0.9 Lens MStar SSC378DE+SC840AI IP Camera Module Board Onvif Radiator All Color
$18.17 3MP IMX307+MStar SSC335 IP Camera Module Board IRCut 2304*1296 25fps H.265 Low illumination StarLight Onvif Radiator
$41.06 8MP 4K Camera Module 3840(H)*2160 (V) SONY IMX415 MJPEG H.265+ 20fps Hd Board For CCTV Camera module Danale APP Mstar Chip
$29.6 MStar 8/5/3MP 4K StarLight IMX415 Double Light IP Metal Bullet Camera 3840*2160 H.265 Onvif IRC NightVision IP66 Outdoor Black
$25.1 Mstar Xmeye CCTV 8CH 9CH 16CH NVR H.265+ Network Video Recorder 16 Channel 4K NVR HDMI Output Support Onvif Cloud monitoring
$42.92 4K 8/4MP F0.9 StarLight WarmLight MStar SSC378DE+SC850AI 1/1.8 Inch CMOS IP Metal Bullet Camera All Color Low illuminance IP66
$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board M12 Lens IR-Cut Onvif Low illumination Radiator Audio
$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm
$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD
$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm
$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator
$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance
$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera
$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
$251.73 MStar Debug Tool Debug USB Upgrade Tool
占地面积 MStar Semiconductor, Inc. MStar Android TV
$22.14 4K 8/4MP 1/1.8 Inch CMOS StarLight F0.9 Lens MStar SSC378DE+SC840AI IP Camera Module Board Onvif Radiator All Color
$41.06 8MP 4K Camera Module 3840(H)*2160 (V) SONY IMX415 MJPEG H.265+ 20fps Hd Board For CCTV Camera module Danale APP Mstar Chip
$42.92 4K 8/4MP F0.9 StarLight WarmLight MStar SSC378DE+SC850AI 1/1.8 Inch CMOS IP Metal Bullet Camera All Color Low illuminance IP66
$25.1 Mstar Xmeye CCTV 8CH 9CH 16CH NVR H.265+ Network Video Recorder 16 Channel 4K NVR HDMI Output Support Onvif Cloud monitoring
$29.6 MStar 8/5/3MP 4K StarLight IMX415 Double Light IP Metal Bullet Camera 3840*2160 H.265 Onvif IRC NightVision IP66 Outdoor Black
$18.17 3MP IMX307+MStar SSC335 IP Camera Module Board IRCut 2304*1296 25fps H.265 Low illumination StarLight Onvif Radiator
$155.94 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD
$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board M12 Lens IR-Cut Onvif Low illumination Radiator Audio
$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm
$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR
$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD
$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface
$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera
$251.73 MStar Debug Tool Debug USB Upgrade Tool
$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance
$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator
$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm
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