KM641003C中文资料

科脉KMC6000PC秤培训文档1关于PC秤的结构秤架的注意事项：用久了会朝一边倒，适当调整一下固定螺丝的松紧即可。

*有时候客户会有疑问打印机为什么不打印，首先要问的，就是客户的打印机灯是不是亮的，如果不是一红一蓝灯常亮的话，那么首先要考虑的就是打印机开关是否打开，打印机开关在立柱背后的最下方，见下图*出现打印纸跑偏或者打印一半不清楚的状况，那么多半是打印机压滚没压实的缘故，换句话说就是俗称的“打印机盖没扣严”。

扣严的标准是，按走纸键的时候，出纸顺畅，不跑偏；自检的时候，打印字迹清晰。

*如果把纸装反的话，那么也可以走纸的，只是不出字而已。

*打印机后盖板，把这两个螺丝拧下即可打开打印机后盖板如下图*具体关于打印机的配置如图，打印机不通电，检查打印机开关或电源接口，打印机可以自检但是联机不打印机检查USB数据线或U口卡，钱箱不开的话可以考虑将钱箱先直接接刀钱箱接口上，再观察结果。

2关于主板接线如果需要检查主板接线，那么请将主机如图所示放置，保持桌面清洁平整，让立柱侧面着地，然后将主板底板取下即可。

*一般来讲按照图示所接线应该不会错误，值得注意的是打印机&触摸屏共用的USB线，这根线非常重要，由于是两组并为一组，所以需要区分一下，应该不难，当然，这里出问题的概率很低。

另外秤的部分用的是COM2。

3关于表头的拆卸方法如图，打开打印机的纸仓，可以清晰的看到有两个黑色沉头螺丝，用螺丝刀拧下，但是要注意，这种螺丝较软，需要一次性用力，另外尽量选取合适尺寸的螺丝刀。

同理，打开打印机后挡板，也可以看到两个螺丝，方法同上。

如图，表头处于半拆卸状态，但是足可以检查存在的问题了，如果有故障，那么更换相应的配件即可。

但是要注意的是，线长是有限的，千万不要用力过猛将导线拉断，否则后果很严重。

4关于传感器的拆卸方法将秤盘拿起，可以清楚的看到内六方螺丝X2，需要用如图所示工具才能打开，当然如有必要我是可以提供的，虽然一般情况下用不到。

使用手册1索引 页次 1. 安全概要...................………….…………………... 3 1-1.符号标志…………………………………………………. 1-2.特定注意事项……………………………………………. 1-3.开机前注意事项………………………………………….33 4 2. 产品介绍…..........................………………………53. 产品规格…………………………………………... 7 3-1.一般规格…………………………………………………. 3-2.操作模式…………………………………………………. 3-3.恒压源操作………………………………………………. 3-4.恒流源操作………………………………………………. 3-5.追踪操作…………………………………………………. 3-6.电表………………………………………………………. 3-7.CH3输出规格……………………………………………. 3-8. CH4输出规格…………………………………………… 3-9.绝缘度…………………………………………………….78 8 8 9 9 9 9 9 4. 动作原理…………………………………………...105. 面板介绍 (12)5-1.前面板……………………………………………………. 5-2.后面板……………………………………………………. 12 15使用手册2索引页次6. 操作说明 (18)6-1.使用前注意事项………………………………………. 6-2.限流点的设定(Current Limit)………………………… 6-3.恒电压/恒电流的特性(Constant Voltage/ Constant Current)…………………………………….… 6-4.操作模式………………………………………………..18 1919 21 7. 一般维修………………………………………… 27 7-1.保险丝的更换………………………………………….. 7-2.调整…………………………………………………….. 7-3.清洁…………………………………………………….. 27 27 31使用手册31. 安全概要在您使用本系列仪器之前，务必详读安全注意事项，它提供您对仪器更深一层的了解，并提高仪器使用的寿命及降低人为疏失所造成的危险状况。

可编程气体质量 流量计和累加器适用于洁净气体D-9U 23种可供选择的工程单位 （包括用户定义的单位） U 可编程累加器 U 气体流量上限和下限报警 U 两组具有锁存功能的可编程SPDT 继电器 U 可选0 ~ 5 Vdc 或 4 ~ 20 mA 模拟输出 U 适用于多达32种气体 的内部转换系数 U 标配RS232数字通讯接口 U 自动传感器零点偏移调整 （通过数字通讯接口或本地 按钮） U 自诊断测试 U 显示屏可调节背光在FMA-4100／4300系列流量计中，流速可用23种不同的体积流量或质量流量工程单位（包括用户特定的单位）显示。

可以通过RS232或RS485（选配）对流量计编程。

FMA-4100／4300流量计支持多种不同功能，包括可编程流量累加器、流量上限和下限报警、自动零点调整、2种继电器输出、可通过跳线选择的0 ~ 5 Vdc 或4 ~ 20 mA 模拟输出、状态LED 诊断、存储多达10种不同气体标定、内部或用户特定的K 系数。

带显示屏的型号配有本机2行 x 16字符LCD 显示屏，显示屏具有可调节背光，可同时提供流量、累加流量以及诊断信息读数。

RS232或RS485（选配）数字接口可让您访问相关内部数据，包括流量、CPU 温度、自动调零、累加器和报警设置、气体表、转换系数与工程单位选择、动态响应补偿与线性化表调整。

模拟接口提供对应于流量读数的0 ~ 5 Vdc 或4 ~ 20 mA （可通过跳线选择）输出。

FMA-4100／4300流量计支持自动传感器零点偏移调整，可以通过检修按钮在本地启动该调整，或者可以通过数字通讯接口远程启动。

自动调零功能必须满足的条件是，在调整过程中流量计中完全没有流量。

可以通过数字指令启动、读取或者保存当前的自动调零值。

数字累加器指令包括：设置为零、在达到预设流量值时启动、为预设值指定动作、启动／停止累加以及读取。

还可以通过数字通讯接口对气体流量上限和下限报警编程。

DS-2XS6A46G1/P-IZS/C36S804 MP ANPR Bullet Solar Power 4G Network Camera KitIt can be used in the areas that are not suitable for laying wired network and electric supply lines, or used for the scenes that feature tough environment and have high demanding for device stability. It can be used for monitoring the farms, electric power cables, water and river system, oil pipelines and key forest areas.It also can be used in the temporary monitoring scenes, such as the large-scale competitions, the sudden public activity, the temporary traffic control and the city construction.Empowered by deep learning algorithms, Hikvision AcuSense technology brings human and vehicle targets classification alarms to front- and back-end devices. The system focuses on human and vehicle targets, vastly improving alarm efficiency and effectiveness.⏹ 80 W photovoltaic panel, 360 Wh chargeable lithium battery⏹ Clear imaging against strong back light due to 120 dB trueWDR technology⏹ Focus on human and vehicle targets classification based ondeep learning⏹Support battery management, battery display, batteryhigh-low temperature protection, charge-dischargeprotection, low-battery sleep protection and remotewakeup ⏹ LTE-TDD/LTE-FDD/WCDMA/GSM 4G wireless networktransmission, support Micro SIM card⏹Water and dust resistant (IP66) *The Wi-Fi module of this product only supports AP mode on Channel 11, and does not support other modes and channels.FunctionRoad Traffic and Vehicle DetectionWith embedded deep learning based license plate capture and recognition algorithms, the camera alone can achieve plate capture and recognition. The algorithm enjoys the high recognition accuracy of common plates and complex-structured plates, which is a great step forward comparing to traditional algorithms. Blocklist and allowlist are available for plate categorization and separate alarm triggering.SpecificationCameraImage Sensor 1/1.8" Progressive Scan CMOSMax. Resolution 2560 × 1440Min. Illumination Color: 0.0005 Lux @ (F1.2, AGC ON), B/W: 0 Lux with light Shutter Time 1 s to 1/100,000 sLensLens Type Auto, Semi-auto, ManualFocal Length & FOV 2.8 to 12 mm, horizontal FOV 107.4° to 39.8°, vertical FOV 56° to 22.4°, diagonal FOV 130.1° to 45.7°8 to 32 mm, horizontal FOV 40.3° to 14.5°, vertical FOV 22.1° to 8.2°, diagonal FOV 46.9° to 16.5°Iris Type Auto-irisLens Mount All In One LensAperture 2.8 to 12 mm: F1.2, 8 to 32 mm: F1.6 DORIDORI 2.8 to 12 mm:Wide: D: 60.0 m, O: 23.8 m, R: 12.0 m, I: 6.0 m Tele: D: 149.0 m, O: 59.1 m, R: 29.8 m, I: 14.9 m 8 to 32 mm:Wide: D: 150.3 m, O: 59.7 m, R: 30.1 m, I: 15.0 m Tele: D: 400 m, O: 158.7 m, R: 80 m, I: 40 mIlluminatorSupplement Light Type IRSupplement Light Range 2.8 to 12 mm: Up to 30 m 8 to 32 mm: Up to 50 mSmart Supplement Light Yes VideoMain Stream Performance mode:50 Hz: 25 fps (2560 × 1440, 1920 × 1080, 1280 × 720) 60 Hz: 30 fps (2560 × 1440, 1920 × 1080, 1280 × 720) Proactive mode:50 Hz: 12.5 fps (2560 × 1440, 1920 × 1080, 1280 × 720) 60 Hz: 15 fps (2560 × 1440, 1920 × 1080, 1280 × 720)Sub-Stream Performance mode:50 Hz: 25 fps (640 × 480, 640 × 360) 60 Hz: 30 fps (640 × 480, 640 × 360) Proactive mode:50 Hz: 12.5 fps (640 × 480, 640 × 360) 60 Hz: 15 fps (640 × 480, 640 × 360)Third Stream 50 Hz: 1 fps (1280 × 720, 640 × 480) 60 Hz: 1 fps (1280 × 720, 640 × 480)Video Compression Main stream: H.264/H.265Sub-stream: H.264/H.265/MJPEGThird Stream: H.265/H.264*Performance mode: main stream supports H.264+, H.265+Video Bit Rate 32 Kbps to 8 MbpsH.264 Type Baseline Profile, Main Profile, High ProfileH.265 Type Main ProfileBit Rate Control CBR/VBRScalable Video Coding (SVC) H.264 and H.265 encodingRegion of Interest (ROI) 4 fixed regions for main streamAudioAudio Compression G.711/G.722.1/G.726/MP2L2/PCM/MP3/AAC-LCAudio Bit Rate 64 Kbps (G.711ulaw/G.711alaw)/16 Kbps (G.722.1)/16 Kbps (G.726)/32 to 192 Kbps (MP2L2)/8 to 320 Kbps (MP3)/16 to 64 Kbps (AAC-LC)Audio Sampling Rate 8 kHz/16 kHz/32 kHz/44.1 kHz/48 kHzEnvironment Noise Filtering YesNetworkSimultaneous Live View Up to 6 channelsAPI Open Network Video Interface (Profile S, Profile G, Profile T), ISAPI, SDK, ISUP, OTAPProtocols TCP/IP, ICMP, HTTP, HTTPS, FTP, DHCP, DNS, DDNS, RTP, RTSP, RTCP, NTP, UPnP, SMTP, SNMP, IGMP, 802.1X, QoS, IPv6, UDP, Bonjour, SSL/TLS, WebSocket, WebSocketsUser/Host Up to 32 users3 user levels: administrator, operator, and userSecurity Password protection, complicated password, HTTPS encryption, 802.1X authentication (EAP-TLS, EAP-LEAP, EAP-MD5), watermark, IP address filter, basic and digest authentication for HTTP/HTTPS, WSSE and digest authentication for Open Network Video Interface, RTP/RTSP over HTTPS, control timeout settings, TLS 1.2, TLS 1.3Network Storage NAS (NFS, SMB/CIFS), auto network replenishment (ANR)Together with high-end Hikvision memory card, memory card encryption and health detection are supported.Client Hik-Connect (proactive mode also supports), Hik-central ProfessionalWeb Browser Plug-in required live view: IE 10+Plug-in free live view: Chrome 57.0+, Firefox 52.0+ Local service: Chrome 57.0+, Firefox 52.0+Mobile CommunicationSIM Card Type MicroSIMFrequency LTE-TDD: Band38/40/41LTE-FDD: Band1/3/5/7/8/20/28 WCDMA: Band1/5/8GSM: 850/900/1800 MHzStandard LTE-TDD/LTE-FDD/WCDMA/GSM ImageWide Dynamic Range (WDR) 120 dBDay/Night Switch Day, Night, Auto, Schedule, Video Trigger Image Enhancement BLC, HLC, 3D DNR, DefogImage Parameters Switch YesImage Settings Saturation, brightness, contrast, sharpness, gain, white balance, adjustable by client software or web browserSNR ≥ 52 dBPrivacy Mask 4 programmable polygon privacy masks InterfaceAudio 1 input (line in), max. input amplitude: 3.3 Vpp, input impedance: 4.7 KΩ, interface type: non-equilibrium,1 output (line out), max. output amplitude: 3.3 Vpp, output impedance: 100 Ω, interface type: non-equilibriumAlarm 1 input, 1 output (max. 12 VDC, 1 A)On-Board Storage Built-in memory card slot, support microSD card, up to 256 GB, Built-in 8 GB eMMC storageReset Key YesEthernet Interface 1 RJ45 10 M/100 M self-adaptive Ethernet portWiegand 1 Wiegand (CardID 26bit, SHA-1 26bit, Hik 34bit, NEWG 72 bit) EventBasic Event Motion detection, video tampering alarm, exception (network disconnected, IP address conflict, illegal login, HDD error)Smart Event Line crossing detection, intrusion detection, region entrance detection, region exiting detection, unattended baggage detection, object removal detection, scene change detection, face detectionLinkage Upload to FTP/NAS/memory card, notify surveillance center, send email, trigger recording, trigger capture, trigger alarm output, audible warningDeep Learning FunctionRoad Traffic and Vehicle Detection Blocklist and allowlist: up to 10,000 records Support license plate recognition License plate recognition rate ≥95%GeneralPower 12 VDC ± 20%, 4-pin M8 waterproof connector1. Standby power consumption: 45 mW2. The average power consumption of 24 hours:3.5 W (4G transmission is excluded).3. The max. power consumption: 7 WMaterial Front cover: metal, body: metal, bracket: metalDimension 816.2 mm × 735.9 mm × 760 mm (32.1" × 28.9" × 29.9") (Max. size of the camera after it is completely assembled)Package Dimension 862 mm × 352 mm × 762 mm (33.9" × 13.9" × 30.0")Weight Approx. 31.885 kg (70.3 lb.)With Package Weight Approx. 25.650 kg (56.5 lb.)Storage Conditions -20 °C to 60 °C (-4 °F to 140 °F). Humidity 95% or less (non-condensing) Startup and OperatingConditions-20 °C to 60 °C (-4 °F to 140 °F). Humidity 95% or less (non-condensing)Language 33 languages: English, Russian, Estonian, Bulgarian, Hungarian, Greek, German, Italian, Czech, Slovak, French, Polish, Dutch, Portuguese, Spanish, Romanian, Danish, Swedish, Norwegian, Finnish, Croatian, Slovenian, Serbian, Turkish, Korean, Traditional Chinese, Thai, Vietnamese, Japanese, Latvian, Lithuanian, Portuguese (Brazil), UkrainianGeneral Function Anti-banding, heartbeat, mirror, flash log, password reset via email, pixel counter BatteryBattery Type LithiumCapacity 360 Wh (90 Wh for each battery)Max. Output Voltage 12.6 V Battery Voltage 10.8 VOperating Temperature Charging: -20 °C to 45 °C (-4 °F to 113 °F) Discharging: -20 °C to 60 °C (-4 °F to 140 °F)Cycle Lifetime Performance mode: 5 days, Proactive mode: 8 days, Standby mode: 80 days *in cloudy/rainy days (25 °C)Battery Life More than 500 cyclesBattery Weight Approx. 2.74 kg (6.0 lb.) (0.685 kg (1.5 lb.) for each battery) ApprovalEMC CE-EMC/UKCA (EN 55032:2015+A11:2020+A1:2020, EN 50130-4:2011+A1:2014); RCM (AS/NZS CISPR 32: 2015);IC (ICES-003: Issue 7)RF CE-RED/UKCA (EN 301908-1, EN 301908-2, EN 301908-13, EN 301511, EN 301489-1, EN 301489-52, EN 62133);ICASA: same as CE-RED;IC ID (RSS-132 Issue 3, RSS-133 Issue 6, RSS-139 Issue 3, RSS-130 Issue 2, RSS-102 Issue 5);MIC (Article 49-6-4 and 49-6-5 the relevant articles and MIC Notice No. 1299 of the Ordinance Regulating Radio Equipment)Safety CB (IEC 62368-1:2014+A11)CE-LVD/UKCA (EN 62368-1:2014/A11:2017) LOA (IEC/EN 60950-1)Environment CE-RoHS (2011/65/EU);WEEE (2012/19/EU);Reach (Regulation (EC) No 1907/2006)Protection Camera: IP66 (IEC 60529-2013)Wind resistance 12 level, up to 40 m/s wind speed resistance⏹Typical ApplicationHikvision products are classified into three levels according to their anti-corrosion performance. Refer to the following description to choose for your using environment.This model has NO SPECIFIC PROTECTION.Level DescriptionTop-level protection Hikvision products at this level are equipped for use in areas where professional anti-corrosion protection is a must. Typical application scenarios include coastlines, docks,chemical plants, and more.Moderate protection Hikvision products at this level are equipped for use in areas with moderate anti-corrosion demands. Typical application scenarios include coastal areas about 2kilometers (1.24 miles) away from coastlines, as well as areas affected by acid rain. No specific protection Hikvision products at this level are equipped for use in areas where no specific anti-corrosion protection is needed.⏹Available ModelDS-2XS6A46G1/P-IZS/C36S80 (2.8-12mm)DS-2XS6A46G1/P-IZS/C36S80 (8-32mm)Dimension。

V40100C, VF40100C, VB40100C & VI40100CVishay General SemiconductorDocument Number: 89042For technical questions within your region, please contact one of the following:Dual High-Voltage Trench MOS Barrier Schottky RectifierUltra Low V F = 0.38 V at I F = 5 AFEATURES•Trench MOS Schottky technology •Low forward voltage drop, low power losses •High efficiency operation •Low thermal resistance•Meets MSL level 1, per J-STD-020, LF maximum peak of 245 °C (for TO-263AB package) •Solder dip 260 °C, 40 s (for TO-220AB, ITO-220AB and TO-262AA package) •Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/EC TYPICAL APPLICATIONSFor use in high frequency inverters, switching power supplies, freewheeling diodes, OR-ing diode, dc-to-dc converters and reverse battery protection.MECHANICAL DATACase: TO-220AB, ITO-220AB, TO-263AB and TO-262AAEpoxy meets UL 94V-0 flammability ratingTerminals: Matte tin plated leads, solderable per J-STD-002 and JESD22-B102E3 suffix for consumer grade, meets JESD 201 class 1A whisker testPolarity: As markedMounting Torque:10 in-lbs maximumPRIMARY CHARACTERISTICSI F(AV) 2 x 20 A V RRM 100 V I FSM 250 A V F at I F = 20 A 0.61 V T J max.150 °C12312KMAXIMUM RATINGS (T A = 25°C unless otherwise noted)PA AMETE SYMBOL V40100C VF40100C VB40100C VI40100C UNITMaximum repetitive peak reverse voltage V RRM 100V Maximum average forward rectified current (Fig. 1)per device per diodeI F(AV)4020APeak forward surge current 8.3 ms single half sine-wave superimposed on rated load per diode I FSM 250 A Isolation voltage (ITO-220AB only)From terminal to heatsink t = 1 minV AC 1500V Operating junction and storage temperature rangeT J , T STG- 40 to + 150°CV40100C, VF40100C, VB40100C & VI40100CVishay General Semiconductor For technical questions within your region, please contact one of the following:Document Number: 89042Notes:(1) Pulse test: 300 µs pulse width, 1 % duty cycle (2) Pulse test: Pulse width ≤ 40 msRATINGS AND CHARACTERISTICS CURVES (T A = 25 °C unless otherwise noted)ELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PA AMETE TEST CONDITIONS SYMBOL TYP.MAX.UNITBreakdown voltage(2)I R = 1.0 mAT A = 25 °CV BR100 (minimum)-VI R = 10 mA 105 (minimum)-Instantaneous forward voltage per diode (1)I F = 5 AI F = 10 A I F = 20 A T A = 25 °CV F0.470.540.67--0.73VI F = 5 A I F = 10 A I F = 20 A T A = 125 °C 0.380.450.61--0.67Reverse current at rated V R per diode (2)V R = 70 V T A = 25 °C T A = 125 °C I R910--µA mA V R = 100 VT A = 25 °C T A = 125 °C-21100045µA mATHERMAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PA AMETE SYMBOL V40100C VF40100C VB40100CVI40100CUNITTypical thermal resistance per diodeR θJC2.04.02.02.0°C/WORDERING INFORMATION (Example)PACKAGE PREFERRED P/N UNIT WEIGHT (g)PACKAGE CODEBASE QUANTITYDELIVERY MODETO-220AB V40100C-E3/4W 1.854W 50/tube T ube ITO-220AB VF40100C-E3/4W 1.754W 50/tube T ube TO-263AB VB40100C-E3/4W 1.394W 50/tube T ube TO-263AB VB40100C-E3/8W 1.398W 800/reel T ape and reelTO-262AAVI40100C-E3/4W1.464W50/tubeTubeFigure 1. Forward Current Derating Curve Figure 2. Forward Power Loss Characteristics Per DiodeV40100C, VF40100C, VB40100C & VI40100CVishay General SemiconductorDocument Number: 89042For technical questions within your region, please contact one of the following:Figure 3. Typical Instantaneous Forward Characteristics Per Diode Figure 4. Typical Reverse Characteristics Per Diode Figure 5. Typical Junction Capacitance Per DiodeFigure 6. Typical Transient Thermal Impedance Per DiodeFigure7. Typical Transient Thermal Impedance Per DiodeV40100C, VF40100C, VB40100C & VI40100CVishay General Semiconductor For technical questions within your region, please contact one of the following:Document Number: 89042PACKAGE OUTLINE DIMENSIONS in inches (millimeters)Disclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

Copyright © Cirrus Logic, Inc. 1998(All Rights Reserved)CS4610/11Advanced Product DatabookCrystalClear™SoundFusion™ PCI AudioAcceleratorFEATURESs High Performance PCI Audio Accelerator—Powerful RAM-based SLIMD™ DSP core provides high task concurrency and maximum flexibility—Efficient bus mastering PCI interface minimizes host loading—DMA engine with hardware scatter-gather manages up to 96 simultaneous audio/data streamss Flexible Digital Audio Interface Design—Direct Connection to CS423x Codec—Simple expansion to 6 audio output channels —Direct Connection to CS4297 AC’97 Codecs Complete Solution including DSP Software and Windows 95® drivers—Acceleration of DirectSound ®, DirectSound3D ®, Direct-Input™, and DirectShow™ APIs—High Quality HRTF-Based 3D Positional Sound—General MIDI Wavetable Synthesis with Reverb and Chorus—Dolby ® AC-3® (5.1 channel) and MPEG-2 Audio Decod-ing (CS4610 only) with speaker virtualizationDESCRIPTIONThe CS4610/11 is a high performance audio accel-erator for the PCI bus. This device, combined with application and driver software, provides a com-plete system solution for hardware acceleration of Windows 95 DirectSound, DirectSound3D, Direct-The CS4610/11 is based on the Cirrus Logic, Crys-talClear Stream Processor (SP) DSP core. The SP core is optimized for digital audio processing, and is powerful enough to handle complex signal pro-cessing tasks such as Dolby AC-3 decoding (CS4610 only) with ease. The SP core is supported by a bus mastering PCI interface and a built-in ded-icated DMA engine with hardware scatter-gather support. These support functions ensure extremely efficient transfer of audio data streams to and from host-based memory buffers, providing a system solution with maximum performance and minimal host CPU loading.The all-digital CS4610/11 supports a variety of au-dio I/O configurations, including direct connection to the CrystalClear CS423x Codecs via a bi-direc-tional serial data link, or direct connection to an AC’97 Codec such as the CrystalClear CS4297.ORDERING INFORMATIONCS4610-CM 100-pin MQFP 20x14x3.07 mmCS4610C-CQ 128-pin TQFP 20x14x1.60 mm CS4611-CM 100-pin MQFP20x14x3.07 mmDS241PP5MAR ‘982DS241PP5CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorABSOLUTE MAXIMUM RATINGS(PCIGND = CGND = CRYGND = 0 V, all voltages with respect to 0 V)Notes: 1.Includes all power generated by AC and/or DC output loading.2.The power supply pins are at recommended maximum values. XTALI & XTALO are at3.6V maximum.3.At ambient temperatures above 70° C, total power dissipation must be limited to less than 0.4 Watts.WARNING:Operation beyond these limits may result in permanent damage to the device.Normal operation is not guaranteed at these extremes.RECOMMENDED OPERATING CONDITIONS(PCIGND = CGND = CRYGND = 0 V, all voltages with respect to 0 V)Specifications are subject to change without notice.ParameterSymbol Min Typ Max Unit Power SuppliesPCIVDD CVDD CRYVDD VDD5REF-------- 4.64.64.65.5V V V V Total Power Dissipation(Note 1)-- 1.5W Input Current per Pin, DC (Except supply pins)--10mA Output current per pin, DC --10mA Input voltage(Note 2)-0.3- 5.75V Ambient temperature (power applied)(Note 3)-45-85°C Storage temperature-55-150°CParameterSymbol MinTyp Max Min Typ Max Unit CS4610CS4611Power SuppliesPCIVDD CVDD CRYVDD VDD5REF3334.75 3.33.33.35 3.63.63.65.253334.75 3.33.33.35 3.63.63.65.25V V V V Internal DSP Frequency--100--85MHz Operating Ambient TemperatureT A25702570°CDolby’s AC3 Technology is implemented on the CS4610 Stream Processor Only. Supply of this Implementation of Dolby Technology does not convey a license nor imply a right under any patent, or any other Industrial or Intellectual Property Right of Dolby Laboratories, to use this Implementation in any finished end-user or ready-to-use final product. It is hereby notified that a license for such use is required from Dolby Laboratories.Dolby and AC-3 are registered trademarks of Dolby Laboratories Licensing Corporation.Windows, Windows 95, DirectSound, and DirectSound3D are registered trademarks of Microsoft Corporation.DirectInput, DirectX and DirectShow are trademarks of Microsoft Corporation.Sound Blaster and Sound Blaster Pro are trademarks of Creative Technology, Ltd. Crystal, CrystalClear, SLIMD and SoundFusion are trademarks of Cirrus Logic, Inc.All other names are trademarks, registered trademarks, or service marks of their respective companies.DS241PP53CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorAC CHARACTERISTICS (PCI SIGNAL PINS ONLY) (T A = 70° C;PCIVDD = CVDD = CRYVDD = 3.3 V; VDD5REF = 5 V; PCIGND = CGND = CRYGND = 0 V; Logic 0 = 0 V, Logic 1 = 3.3 V; Reference levels = 1.4 V; unless otherwise noted; (Note 4))Notes: 4.Specifications guaranteed by characterization and not production testing.5.Refer to V/I curves in Figure 1. Specification does not apply to CLK and RST# signals. Switching CurrentHigh specification does not apply to SERR# and INTA# which are open drain outputs.6.Cumulative edge rate across specified range. Rise slew rates do not apply to open drain outputs.7.Equation A: I OH = 11.9 * (Vout - 5.25) * (Vout + 2.45) for 3.3 V > Vout > 3.1 V8.Equation B: I OL = 78.5 * Vout * (4.4 - Vout) for 0 V < Vout < 0.71 VParameterSymbol Min Max Unit Switching Current High(Note 5)0 < Vout < 1.41.4 < Vout < 2.43.1 < Vout < 3.3I OH -44---Note 7mA mASwitching Current Low(Note 5)Vout > 2.22.2 > Vout > 0.550.71 > Vout > 0I OL95Vout/0.023---Note 8mA mA Low Clamp Current -5 < Vin < -1I CL-mA Output rise slew rate 0.4 V - 2.4 V load (Note 6)slewr 15V/ns Output fall slew rate2.4 V - 0.4 V load(Note 6)slewf15V/ns44–Vout 1.4–0.024---------------------------+25–Vin 1+0.015------------------+Figure 1. AC Characteristics4DS241PP5CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorDC CHARACTERISTICS (T A = 70° C; PCIVDD = CVDD = CRYVDD = 3.3V; VDD5REF = 5V;PCIGND = CGND = CRYGND = 0 V; all voltages with respect to 0 V unless otherwise noted)Notes:9.The following signals are tested to 6mA: FRAME#, TRDY#, IRDY#, DEVSEL#, STOP#, SERR#,PERR#, and INTA#. All other PCI interface signals are tested to 3 mA.10.Input leakage currents include hi-Z output leakage for all bi-directional buffers with three-state outputs.At supply voltages of 3.6 V or higher and ambient temperatures of 70° C, the high level leakage current may exceed 70µA. For normal operating ranges of 25° C and a supply voltage of 3.3 V, the high level leakage current is within specification.11.For open drain pins, high level output voltage is dependent on external pull-up used and number ofattached gates.12.Typical values are given as average current with typical SP task execution and data streaming. Currentvalues vary dramatically based on the software running on the SP.ParameterSymbol Min Typ Max Unit PCI Interface Signal Pins High level input voltage V IH 2- 5.75V Low level input voltage V IL -0.5-0.8V High level output voltage Iout = -2 mA V OH 2.4--V Low level output voltage Iout = 3 mA, 6 mA (Note 9)V OL --0.55V High level leakage current Vin = 2.7 V (Note 10)I IH --70µA Low level leakage currentVin = 0.5 V(Note 10)I IL ---70µA Non-PCI Interface Signal Pins (Except XTALO)High level input voltageXTALI Other PinsV IH 2.32 3.3- 4.05.75V V Low level input voltage XTALI Other Pins V IL -0.5-0.50-0.80.8V V High level output voltage Iout = -4 mA (Note 11)V OH 2.4--V Low level output voltage Iout = 4 mA V OL --0.4V High level leakage current Vin = 5.25 V I IH --10µA Low level leakage currentVin = 0I IL---10µAParameterMinTyp MaxMinTyp MaxUnit CS4610CS4611Power Supply Pins (Outputs Unloaded)Power Supply Current: VDD5REFPCIVDD/CVDD/CRYVDD Total (Notes 4,12)--0.6200-370--0.6164-240mA mA Low Power Mode Supply Current-10--10-mADS241PP55CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorPCI INTERFACE PINS (T A = 0 to 70° C; PCIVDD = CVDD = CRYVDD = 3.3V; VDD5REF = 5V;PCIGND = CGND = CRYGND = 0 V; Logic 0 = 0V, Logic 1 = 3.3 V; Timing reference levels = 1.4V)Notes:13.For Active/Float measurements, the Hi-Z or “off” state is when the total current delivered is less than orequal to the leakage current. Specification is guaranteed by design, not production tested.14.RST# is asserted and de-asserted asynchronously with respect to PCICLK.15.All output drivers are asynchronously floated when RST# is active.ParameterSymbol Min Max Unit PCICLK cycle time t cyc 30-ns PCICLK high time t high 11-ns PCICLK low timet low 11-ns PCICLK to signal valid delay - bused signals t val 211ns PCICLK to signal valid delay - point to point t val(p+p)212ns Float to active delay (Note 13)t on 2-ns Active to Float delay(Note 13)t off -28ns Input Set up Time to PCICLK - bused signals t su 7-ns Input Set up Time to PCICLK - point to point t su(p+p)10, 12-ns Input hold time for PCICLKt h 0-ns Reset active time after PCICLK stable (Note 14)t rst-clk 100-µs Reset active to output float delay(Notes 13, 14, 15)t rst-off-40nsFigure 2. PCI Timing Measurement ConditionsCS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorCS4610/11 + CS423X CONFIGURATION (TA = 0 to 70° C;PCIVDD = CVDD = CRYVDD = 3.3V; VDD5REF = 5V; PCIGND = CGND = CRYGND = 0 V;Logic 0 = 0V, Logic 1 = 3.3 V; Timing reference levels = 1.4V; unless otherwise noted)Parameter Symbol Min Typ Max Unit SCLK input cycle time t sclk320354-ns FSYNC input cycle time t fsync2048022676-ns SCLK rising to FSYNC transition t pd1-20-20ns SCLK rising to SDOUT valid t pd2-2545ns SDIN valid to SCLK falling t s130--ns SDIN hold after SCLK falling t h130--ns LRCLK output cycle time t lrclk2048022676-ns SCLK falling to LRCLK transition t pd3-2545ns SCLK falling to SDO2/SDO3 valid t pd4-2545ns SDIN2 valid to SCLK rising (SI2F1-0: 00)t s230--ns SDIN2 hold after SCLK rising (SI2F1-0: 00)t h230--ns SDIN2 valid to SCLK falling (SI2F1-0: 01)t s330--ns SDIN2 hold after SCLK falling (SI2F1-0: 01)t h330--nsSCLKFSYNCSDOUTSDINLRCLK SD02/SD03SDIN2SDIN2t sclkt pd1t pd2151400151514t s1015151414150t pd4t pd3t h1t s2t s3t h2t h317160191819181716001515t fsynct lrclk Figure 3. CS4610/11 and CS423x Link and 6 Channel Output Timing Diagram6DS241PP5CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorAC’97 SERIAL INTERFACE TIMING (TA = 0 to 70° C; PCIVDD = CVDD = CRYVDD = 3.3V; VDD5REF = 5V; VDD5REF = 5V; PCIGND = CGND = CRYGND = 0 V; Logic 0 = 0V, Logic 1 = 3.3 V;Timing reference levels = 1.4V; unless otherwise noted)Parameter Symbol Min Typ Max Unit ABITCLK cycle time t aclk7881.4-ns ABITCLK rising to ASDOUT valid t pd5-1725ns ASDIN valid to ABITCLK falling t s515--ns ASDIN hold after ABITCLK falling t h55--nsnsPCICLK rising to ARST# valid t pd6-10-DS241PP578DS241PP5CS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorEEPROM TIMING CHARACTERISTICS Note 4. (T A = 0 to 70 °C, PCIVDD = CVDD = CRYVDD =3.3V; VDD5REF = 5V; VDD5REF = 5V; PCIGND = CGND = CRYGND = 0 V; Logic 0 = 0V, Logic 1 = 3.3 V; Timing reference levels = 1.4V; PCI clock frequency = 33MHz; unless otherwise noted)Notes:16.Rise time on EEDAT is determined by the capacitance on the EEDAT line with all connected gates andthe required external pull-up resistor.ParameterSymbol Min Max Units EECLK Low to EEDAT Data Out Valid t AA 07.0µs Start Condition Hold Time t HD:STA 5.0-µs EECLK Low t LEECLK 10-µs EECLK Hight HEECLK 10-µs Start Condition Setup Time (for a Repeated Start Condition)t SU:STA 5.0-µs EEDAT In Hold Time t HD:DAT 0-µs EEDAT In Setup Time t SU:DAT 250-ns EEDAT/EECLK Rise Time (Note 16)t R -1µs EEDAT/EECLK Fall Time t F -300ns Stop Condition Setup Time t SU:STO 5.0-µs EEDAT Out Hold Timet DH-µsCS4610/11CrystalClear™ SoundFusion™ PCI Audio AcceleratorOVERVIEWThe CS4610 and CS4611 are high performance au-dio accelerator DSPs for the PCI bus. These devic-es, combined with application and driver software, provide a complete system solution for cost effec-tive acceleration of Windows® DirectSound, DirectSound3D, DirectInput, DirectShow, MIDI playback via Wavetable Synthesis with reverbera-tion and chorus effects processing, and more. The CS4610 is a high-performance, full-featured version of the SoundFusion audio accelerator. The CS4611 is a reduced-cost version of the CS4610. The CS4611 has a lower max clock speed and does not support AC-3 or MPEG-2. Please refer to the OEM Software Reference Manual for more details. There are three main functional blocks within the CS4610/11: the Stream Processor, the PCI Inter-face, and the DMA Engine. The Stream Processor (SP) is a high speed custom Digital Signal Proces-sor (DSP) core designed by Cirrus Logic, Inc. spe-cifically for audio signal processing. This extremely powerful DSP core is capable of running complex algorithms such as Dolby Digital AC-3 or MPEG-2 audio decoding for applications such as DVD movie playback or gaming. The SP is capable of running a number of different signal processing algorithms simultaneously. This high concurrency capability is valuable for applications such as immer-sive 3D games, which may play a number of Direct-Sound streams, a number of DirectSound3D streams, and a MIDI music sequence simultaneously. Separate RAM memories are included on-chip for the SP program code (Program RAM), parameter data (Parameter RAM), and audio sample data (Sample RAM). A small ROM memory (Coeffi-cient ROM) is included to store fixed coefficient data required for the sample rate conversion and audio decompression algorithms.The RAM-based DSP architecture of the CS4610/11 ensures maximum system flexibility. The software function/feature mix can be adapted to meet the requirements of a variety of different applications, such as DirectX™ games, DVD mov-ie playback, or DOS applications. This RAM-based architecture also provides a means for future sys-tem upgrades, allowing the addition of new or up-graded functionality through software updates. The CS4610/11 provides an extremely efficient bus mastering interface to the PCI bus. The PCI Inter-face function allows economical burst mode trans-fers of audio data between host system memory buffers and the CS4610/11 device. Program code and parameter data are also transferred to the CS4610/11 over the PCI Interface.The CS4610/11 DMA Engine provides dedicated hardware to manage transfer of up to 96 concurrent audio/data streams to and from host memory buff-ers. The DMA Engine provides hardware scatter-gather support, allowing simple buffer allocation and management. This implementation improves system efficiency by minimizing the number of host interrupts.The CS4610/11 supports a variety of audio I/O configurations, including direct connection to the CrystalClear CS423x Codecs or to an AC’97 Co-dec such as the CrystalClear CS4297. The system’s flexibility is further enhanced by the inclusion of auxiliary ADC and DAC ports, a bi-directional se-rial MIDI port, a joystick port, a hardware volume control interface, and a serial data port which al-lows connection of an optional external EEPROM device.The block diagram in Figure 6 depicts a mother-board audio subsystem based on the CS4610/11 and the CS423x. This approach features the proven ISA legacy support of the CS423x Codecs (which include the CS423xB family as well as the CS4235 and CS4239 devices). The CS423x provides DOS applications with hardware compatibility for the Sound Blaster Pro™, OPL3, and MPU-401 register sets. In this configuration, the CS423x also pro-vides the system joystick interface. The CS423xDS241PP59CS4610/11 CrystalClear™ SoundFusion™ PCI Audio Acceleratorprovides all Analog-to-Digital conversion (ADC) and Digital-to-Analog conversion (DAC) func-tions. Digital audio is transferred between the CS423x and the CS4610/11 over a proprietary bi-directional serial data link between the two devices. MIDI data from the CS423x MPU-401 UART is also transferred serially to the CS4610. DOS appli-cations can directly address the CS423x audio functions on the ISA bus. Windows DirectX audio applications will address the PCI-based CS4610/11 device through Windows DirectX drivers, wherein the CS423x is utilized as the external Codec for an-alog I/O.A system diagram depicting connection of the CS4610/11 to the CrystalClear CS4297 AC’97 Co-dec is given in Figure 7. All analog audio inputs and outputs are connected to the AC’97 Codec. Au-dio data is passed between the AC’97 Codec and the CS4610/11 over the serial AC-Link. The CS4610/11 provides a hardware interface for con-nection of a joystick and MIDI devices. Legacy au-dio support under a Windows DOS Box is provided via virtualization of the Sound Blaster™, OPL3 FM synthesizer and MPU-401 MIDI interface reg-isters.Figure 6. CS4610/11 + CS423x Motherboard Audio ConfigurationFigure 7. CS4610/11 + AC ‘97 Codec Configuration10DS241PP5Stream Processor DSP CoreThe CS4610/11 Stream Processor (SP) is a custom DSP core design optimized for processing and syn-thesizing digital audio data streams. The SP fea-tures a Somewhat Long Instruction Multiple Data (SLIMD) modified dual Harvard architecture. The device uses a 40-bit instruction word and operates on 32-bit data words. The SP core is conservatively rated at 300 Million Instructions per second (300 MIPS) when running at a 100 MHz internal clock speed (CS4611 runs at 85MHz). The SP includes two Multiply-Accumulate (MAC) blocks and one 16-bit Arithmetic and Logic Unit (ALU). The MAC units perform 20-bit by 16-bit multiplies and have 40-bit accumulators, providing higher quality than typical 16-bit DSP architectures.PLL and Clock ControlThe CS4610/11 includes a programmable Phase Locked Loop (PLL) circuit which generates the high frequency internal SP clock from a lower fre-quency input clock. The PLL input may come from the CS4610/11 crystal oscillator circuit or the serial port clock (ASCLK/SCLK). The CS4610/11 Clock Control circuitry allows gating of clocks to various internal functional blocks to conserve power during power conservation modes, as well as during nor-mal modes of operation when no tasks are being executed.Host InterfaceThe CS4610/11 host interface is comprised of two separate interface blocks which are memory mapped into host address space. The CS4610/11 interface blocks can be located anywhere in the host 32-bit physical address space. The interface block locations are defined by the addresses pro-grammed into the two Base Address Registers in the CS4610/11 PCI Configuration Space. These base addresses are normally set up by the system’s Plug and Play BIOS. The first interface block (lo-cated using Base Address 0) is a 4kByte register block containing general purpose configuration, control, and status registers for the device. The sec-ond interface block (located using Base Address 1) is a 1MByte block which maps all of the CS4610/11 internal RAM memories (SP Program RAM, Parameter RAM, and Sample RAM), along with the SP debug registers, into host memory space. This allows the host to directly peek and poke RAM locations on the device. The relation-ship between the Base Address Registers in the CS4610/11 PCI Configuration Space and the host memory map is depicted in Figure 8.CS4610/11 PCI InterfaceThe CS4610/11 provides a bus mastering PCI bus interface which complies with the PCI Local Bus Specification version 2.1.PCI Bus TransactionsAs a target of a PCI bus transaction, the CS4610/11 supports the Memory Read (from internal registers or memory), Memory Write (to internal registers or memory), Configuration Read (from CS4610/11 configuration registers), Configuration Write (to CS4610/11 configuration registers), Memory Read Multiple (aliased to Memory Read), Memory Read Line (aliased to Memory Read), and the Memory Write and Invalidate (aliased to Memory Write) transfer cycles. The I/O Read, I/O Write, Interrupt Acknowledge, Special Cycles, and Dual Address Cycle transactions are not supported.As Bus Master, the CS4610/11 generates the Mem-ory Read Multiple and Memory Write transactions. The Memory Read, Configuration Read, Configu-ration Write, Memory Read Line, Memory Write and Invalidate, I/O Read, I/O Write, Interrupt Ac-knowledge, Special Cycles, and Dual Address Cy-cle transactions are not generated.The PCI bus transactions supported by the CS4610/11 device are summarized in Table 1. Note that no Target Abort conditions are signalled by the device. Byte, Word, and Doubleword transfers are supported for Configuration Space accesses. Only Doubleword transfers are supported for Register orMemory area accesses. Bursting is not supported for host-initiated transfers to/from the CS4610/11internal register space, RAM memory space, or PCI configuration space (disconnect after first phase of transaction is completed).Initiator Target Type PCI DirHostRegisters (BA0)Mem WriteIn Host Registers (BA0)Mem Read Out Host Memories (BA1)Mem Write In Host Memories (BA1)Mem Read Out Host Config Space 1Config Write In Host Config Space 1Config ReadOut DMA Host System Mem Write Out DMAHost SystemMem ReadInTable 1. CS4610/11 PCI Interface Transaction SummaryFigure 8. CS4610/11 Host Interface Base Address RegistersConfiguration SpaceThe content and format of the primary PCI Config-uration Space for the CS4610/11 device is given inTable 2.Byte3Byte2Byte1Byte0Offset Device ID: R/O, 6001h Vendor ID: R/O, 1013h 00hStatus Register, bits 15-0:Bit 15Detected Parity Error: Error BitBit 14Signalled SERR: Error BitBit 13Received Master Abort: Error BitBit 12Received Target Abort: Error BitBit 11Signalled Target Abort: Error BitBit 10-9 DEVSEL Timing: R/O, 01b (medium) Bit 8Data Parity Error Detected: Error Bit Bit 7Fast Back to Back Capable: R/O 0Bit 6-0UDF, 66MHz, Reserved: R/O 0000000 Reset Status State: 0200hWrite of 1 to any error bit position clears mand Register, bits 15-0:Bit 15-10: Reserved, R/O 0Bit 9Fast B2B Enable: R/O 0Bit 8SERR Enable: R/W, default 0Bit 7Wait Control: R/O 0Bit 6Parity Error Response: R/W, default 0Bit 5VGA Palette Snoop: R/O 0Bit 4MWI Enable: R/O 0Bit 3Special Cycles: R/O 0Bit 2Bus Master Enable: R/W, default 0Bit 1Memory Space Enable: R/W, default 0Bit 0IO Space Enable: R/O 004hClass Code: R/O 040100hClass 04h (multimedia device), Sub-class 01h (audio), Interface 00hRevision ID: R/O 01h08hBIST: R/O 0Header Type:Bit 7:R/O 0Bit 6-0: R/O 0 (type 0)Latency Timer:Bit 7-3: R/W,default 0Bit 2-0: R/O 0Cache Line Size:R/O 00ChBase Address Register 0Device Control Register space, memory mapped. 4 kByte sizeBit 31-12: R/W, default 0. Compare address for register space accessesBit 11 - 4: R/O 0, specifies 4 kByte sizeBit 3: R/O 0, Not Prefetchable (Cacheable)Bit 2-1: R/O 00, Location Type - Anywhere in 32 bit address spaceBit 0: R/O 0, Memory space indicator10hBase Address Register 1Device Memory Array mapped into host system memory space, 1 MByte sizeBit 31-20: R/W, default 0. Compare address for memory array accessesBit 19 - 4: R/O 0, specifies 1 MByte sizeBit 3: R/O 0, Not Prefetchable (Cacheable)Bit 2-1: R/O 00, Location Type - Anywhere in 32 bit address spaceBit 0: R/O 0, Memory space indicator14hBase Address Register 2: R/O 00000000h, Unused18h Base Address Register 3: R/O 00000000h, Unused1Ch Base Address Register 4: R/O 00000000h, Unused20h Base Address Register 5: R/O 00000000h, Unused24hTable 2. CS4610/11 PCI Configuration Space 1Subsystem Vendor ID FieldsThe Subsystem ID and Subsystem Vendor ID fields in the CS4610/11 PCI Configuration Space default to value 0000h unless an external EEPROM device is detected or unless the host has written to the appropriate internal register to program the val-ues. When programmed through the EEPROM all four bytes can be written. However, when pro-gramming though the host interface (BIOS code), only the Subsystem Vendor ID (bytes 1 and 0) can be programmed. The Subsystem ID (bytes 3 and 2) is forced to the most significant byte (byte 1) of the Subsystem Vendor ID. Therefore, when loaded though host code, bytes one, two and three will all have the same value.CS4610/11 Interrupt SignalThe CS4610/11 PCI Interface includes an interrupt controller function which receives interrupt re-quests from multiple sources within the CS4610/11 device, and presents a single interrupt line (INTA#) to the host system. Interrupt control registers in the CS4610/11 provide the host interrupt service rou-tine with the ability to identify the source of the in-terrupt and to clear the interrupt sources. In the CS4610/11, the single external interrupt is expand-ed by the use of “virtual channels”. Each data stream which is read from or written to a modulo buffer is assigned a virtual channel number. This virtual channel number is signalled by the DMA subsystem anytime the associated modulo buffer pointer passes the mid-point or wraps around. Vir-tual channels are also used for message passing be-tween the CS4610/11 and the host.Serial Port ConfigurationsThe CS4610/11 provides a flexible Serial Audio Interface which allows connection to external Ana-log-to-Digital Converters (ADCs), Digital-to-Ana-log Converters (DACs) or Codecs (combined ADC and DAC functions) in several different configura-tions. The CS4610/11 serial audio interface in-cludes a primary input/output port with dedicated serial data pins (SDIN, SDOUT), two auxiliary au-dio output ports (SDO2, SDO3) which share pins with the joystick interface button input functions, and one auxiliary audio input port (SDIN2). Each of these digital audio input and output pins carry two channels of audio data. These two channels may comprise the left and right channels of a stereo audio signal, or they may be two independent mon-aural audio signals.Cardbus CIS Pointer: R/O 00000000h, Unused28hSubsystem IDR/O 0000hsee Subsystem Vendor ID Fields section Subsystem Vendor IDR/O 0000hsee Subsystem Vendor ID Fields section2ChExpansion ROM Base Address: R/O 00000000h, Unused30h Reserved: R/O 00000000h34h Reserved: R/O 00000000h38hMax_Lat: R/O 18h 24 x 0.25uS = 6 uS Min_Gnt: R/O 04h4 x 0.25uS = 1uSInterrupt Pin:R/O 01h, INTA usedInterrupt Line:R/W, default 03ChByte3Byte2Byte1Byte0Offset Table 2. CS4610/11 PCI Configuration Space 1 (Continued)Each digital audio channel is internally buffered through a 16 sample x 20-bit FIFO. The data format for the serial digital audio ports varies depending on the configuration. The primary configurations supported include a CS4610/11 plus CS423x con-figuration for motherboard audio, a CS4610/11 plus CS423x configuration with full 5.1 channel output capability, and an AC’97 controller config-uration (CS4610/11 plus an AC’97 Codec).CS4610/11 + CS423x Motherboard Audio AcceleratorA system block diagram for the CS4610/11 plus CS423x configuration is given in Figure 6. This configuration utilizes a proprietary bi-directional digital audio link between the CS4610/11 and the CS423x. The connection between these devices is depicted in Figure 9.In the CS4610/11 plus CS423x configuration, the CS423x is the serial port timing master. The serial port runs at a fixed 44.1 kHz sampling rate, and the 2.822 MHz SCLK output from the CS423x is selected as the CS4610/11 PLL clock generator input.Note that in this configuration the SDIN signal car-ries two stereo streams from the CS423x to the CS4610/11: the CS423x ADC data and the CS423x output data. The SDOUT signal carries the CS4610/11 final output to the CS423x DACs. SDIN and SDOUT transitions occur on rising edg-es of SCLK (SDIN is sampled on falling edges of SCLK). The data is transmitted in left-justified for-mat, MSB first, 16-bit data, with 32 clock cycles for each phase of the FSYNC signal. FSYNC tran-sitions occur on rising edges of SCLK, the FSYNC high phase indicates left channel data on SDIN and SDOUT while the FSYNC low phase indicates right channel data. The SDOUT signal carries 16 bits of data followed by 16 bits of zero pad for each channel (left and right). The SDIN signal carries 16 bits of ADC data followed by 16 bits of playback data for each channel (left and right). The serial port clock and data timing relationship for this con-figuration is indicated in Figure10. The clock and data signal functions for this configuration are summarized in Table 3.Motherboard Configuration with 5.1 channel output capability (CS4610 only)This configuration is the same as the CS4610 plus CS423x motherboard accelerator configuration with the addition of two Crystal™ CS4333 StereoFigure 9. CS4610/11 + CS423x Connection Diagram。

6C SeriesSPECIFICATIONS STANDARD *SPECIAL ELECTRICALCenter Frequency (Fc)3000 to 6000 Mhz 2000 to 9000 MHz 3dB Relative Bandwidth (% of FC) 1 to 2.00.5 to 2.5Number of Sections Available 3 to 6 2 to 7Nominal Impedance 50 Ohms 50 Ohms Maximum Insertion Loss See below See below Maximum VSWR 1.5/1 1.3/1Attenuation in the StopbandSee Graph See Graph Maximum Input Power (Average)(Watts to 10,000 ft.)25% of PEAK See StandardMaximum Input Power (Peak)(Watts to 10,000 ft.)1500 x 3dB BW (MHz)Fc (MHz)See StandardENVIRONMENTAL Shock 15 G's 25 G's Vibration 10 G's 20 G's Humidity90% relative100% relativeAltitude Unlimited UnlimitedTemperature Range (Operating)0 to + 50 degreescelsius-20 to + 70 degreescelsiusTemperature Range (Non-Operating)-25 to + 70 degreescelsius-40 to +85 degreescelsiusMECHANICALApproximate Weight in oz.0.9 x H x L0.8 x H x L Mounting Provisions See below See belowSpecial Configurations Consult Factory Consult FactoryLOSS FACTOR FOR ALL 6C SERIES FILTERS ISLF=0.4Note: Lower loss designs are available with thisseries. Consult Application Engineering.MECHANICAL SPECIFICATIONSL DIMENSION = 0.7 x (NO. OF SECTIONS) + 0.37 inch APPROX.W DIMENSION = 3000/(CENTER FREQ. MHz) + .75 inch APPROX.Connectors Available on 6C Series:Lark Code Type C DIM.Inches & MM Lark Code Type C DIM.Inches & MM A SMA JACK .375 & 9.5G N JACK .736 & 18.7BSMA PLUG.507 & 12.9H N PLUG .819 & 20.8.SSPECIALLark Engineering 6C SERIES元器件交易网The size shown is a standard used by Lark to facilitate a low cost, easily reproducible unit. Should you require another size, please submit all of your requirements-both electrical and mechanical. This will enable Lark Engineering to quote theoptimum design for your application.Lark Engineering 6C SERIES元器件交易网STOPBAND ATTENUATIONThe graphs on the following page define the normal specification limits on attenuation Lark bandpass filter series 2C, 3C, 4C, 5C, and 6C. The minimum level of attenuation in dB is shown as a "number of 3dB bandwidths fromcenter frequency".The exact relationship is as follows:1. 3dB Bandwidths From Center Frequency= Rejection Frequency (Mhz) -Center Frequency (Mhz) divided by 3dB Bandwidth (Mhz)Example:Given:2. Center Frequency = 600 MHzMinimum 3dB Bandwidth = 6 MHzNumber of Sections = 5Find: Minimum attenuation levels at 588 MHz and 610 MHz.3dB BW's from Fc = 588 - 600 / 6 = - 2.0and 610 - 600 / 6 = + 1.6The answer can be read directly from the graph. Using the 5 section curve at the point -2.0 (588 MHz) we find the minimum level of attenuation is 62dB. At +1.6 (610 MHz) the minimum level of attenuation is 51dB.For special requirements, please contact our Application EngineeringDepartment.STOPBAND ATTENUATION。

Decimal Octal Hex Character Description1 1 01 SOH start of header3 3 03 ETX end of text5 5 05 ENQ enquiry7 7 07 BEL bell9 11 09 HT horizontal tab11 13 0B VT vertical tab13 15 0D CR carriage return15 17 0F SI shift in17 21 11 DC1 no assignment, but usually XON19 23 13 DC3 no assignment, but usually XOFF21 25 15 NAK negative acknowledge23 27 17 ETB end of transmission block25 31 19 EM end of medium27 33 1B ESC escape29 35 1D GS group seperator31 37 1F US unit seperator33 41 21 !35 43 23 #37 45 25 %39 47 27 '41 51 29 )43 53 2B +45 55 2D -47 57 2F /49 61 31 151 63 33 353 65 35 555 67 37 757 71 39 959 73 3B ;61 75 3D =63 77 3F ?65 101 41 A67 103 43 C69 105 45 E71 107 47 G73 111 49 I75 113 4B K77 115 4D M79 117 4F O81 121 51 Q83 123 53 S85 125 55 U87 127 57 W89 131 59 Y91 133 5B [93 135 5D ]95 137 5F _97 141 61 a99 143 63 c101 145 65 e103 147 67 g105 151 69 i107 153 6B k109 155 6D m111 157 6F o113 161 71 q115 163 73 s117 165 75 u119 167 77 w121 171 79 y123 173 7B {125 175 7D }127 177 7F DEL delete Bin Dec Hex 缩写/字符解释0000 0000 0 00 NUL (null) 空字符0000 0001 1 01 SOH (start of handing) 标题开始0000 0010 2 02 STX (start of text) 正文开始0000 0011 3 03 ETX (end of text) 正文结束0000 0100 4 04 EOT (end of transmission) 传输结束0000 0101 5 05 ENQ (enquiry) 请求0000 0110 6 06 ACK (acknowledge) 收到通知0000 0111 7 07 BEL (bell) 响铃0000 1000 8 08 BS (backspace) 退格0000 1001 9 09 HT (horizontal tab) 水平制表符0000 1010 10 0A LF (NL line feed, new line) 换行键0000 1011 11 0B VT (vertical tab) 垂直制表符0000 1100 12 0C FF (NP form feed, new page) 换页键0000 1101 13 0D CR (carriage return) 回车键0000 1110 14 0E SO (shift out) 不用切换0000 1111 15 0F SI (shift in) 启用切换0001 0000 16 10 DLE (data link escape) 数据链路转义0001 0001 17 11 DC1 (device control 1) 设备控制10001 0010 18 12 DC2 (device control 2) 设备控制20001 0011 19 13 DC3 (device control 3) 设备控制30001 0100 20 14 DC4 (device control 4) 设备控制40001 0101 21 15 NAK (negative acknowledge) 拒绝接收0001 0110 22 16 SYN (synchronous idle) 同步空闲0001 0111 23 17 ETB (end of trans. block) 传输块结束0001 1000 24 18 CAN (cancel) 取消0001 1001 25 19 EM (end of medium) 介质中断0001 1010 26 1A SUB (substitute) 替补0001 1011 27 1B ESC (escape) 溢出0001 1100 28 1C FS (file separator) 文件分割符0001 1101 29 1D GS (group separator) 分组符0001 1110 30 1E RS (record separator) 记录分离符0001 1111 31 1F US (unit separator) 单元分隔符0010 0000 32 20 空格0010 0001 33 21 !0010 0010 34 22 "0010 0011 35 23 #0010 0100 36 24 $0010 0101 37 25 %0010 0110 38 26 &0010 0111 39 27 '0010 1000 40 28 (0010 1001 41 29 )0010 1010 42 2A *0010 1011 43 2B +0010 1100 44 2C ,0010 1101 45 2D -0010 1110 46 2E .0010 1111 47 2F /0011 0000 48 30 00011 0001 49 31 10011 0010 50 32 20011 0011 51 33 30011 0100 52 34 40011 0101 53 35 50011 0110 54 36 60011 0111 55 37 70011 1000 56 38 80011 1001 57 39 90011 1010 58 3A :0011 1011 59 3B ;0011 1100 60 3C <0011 1101 61 3D =0011 1110 62 3E >0011 1111 63 3F ?0100 0000 64 40 @0100 0001 65 41 A 0100 0010 66 42 B 0100 0011 67 43 C 0100 0100 68 44 D 0100 0101 69 45 E 0100 0110 70 46 F 0100 0111 71 47 G 0100 1000 72 48 H 0100 1001 73 49 I 0100 1010 74 4A J 0100 1011 75 4B K 0100 1100 76 4C L 0100 1101 77 4D M 0100 1110 78 4E N 0100 1111 79 4F O 0101 0000 80 50 P 0101 0001 81 51 Q 0101 0010 82 52 R 0101 0011 83 53 S 0101 0100 84 54 T 0101 0101 85 55 U 0101 0110 86 56 V 0101 0111 87 57 W 0101 1000 88 58 X 0101 1001 89 59 Y 0101 1010 90 5A Z 0101 1011 91 5B [ 0101 1100 92 5C \ 0101 1101 93 5D ] 0101 1110 94 5E ^ 0101 1111 95 5F _ 0110 0000 96 60 `0110 0001 97 61 a 0110 0010 98 62 b 0110 0011 99 63 c 0110 0100 100 64 d 0110 0101 101 65 e 0110 0110 102 66 f 0110 0111 103 67 g 0110 1000 104 68 h 0110 1001 105 69 i 0110 1010 106 6A j0110 1011 107 6B k0110 1100 108 6C l0110 1101 109 6D m0110 1110 110 6E n0110 1111 111 6F o0111 0000 112 70 p0111 0001 113 71 q0111 0010 114 72 r0111 0011 115 73 s0111 0100 116 74 t0111 0101 117 75 u0111 0110 118 76 v0111 0111 119 77 w0111 1000 120 78 x0111 1001 121 79 y0111 1010 122 7A z0111 1011 123 7B {0111 1100 124 7C |0111 1101 125 7D }0111 1110 126 7E ~0111 1111 127 7F DEL (delete) 删除ESC键VK_ESCAPE (27)回车键：VK_RETURN (13)TAB键：VK_TAB (9)Caps Lock键：VK_CAPITAL (20)Shift键：VK_SHIFT ()Ctrl键：VK_CONTROL (17)Alt键：VK_MENU (18)空格键：VK_SPACE (/32)退格键：VK_BACK (8)左徽标键：VK_LWIN (91)右徽标键：VK_LWIN (92)鼠标右键快捷键：VK_APPS (93)Insert键：VK_INSERT (45)Home键：VK_HOME (36)Page Up：VK_PRIOR (33)PageDown：VK_NEXT (34)End键：VK_END (35)Delete键：VK_DELETE (46)方向键(←)：VK_LEFT (37)方向键(↑)：VK_UP (38)方向键(→)：VK_RIGHT (39)方向键(↓)：VK_DOWN (40)F1键：VK_F1 (112)F2键：VK_F2 (113)F3键：VK_F3 (114)F4键：VK_F4 (115)F5键：VK_F5 (116)F6键：VK_F6 (117)F7键：VK_F7 (118)F8键：VK_F8 (119)F9键：VK_F9 (120)F10键：VK_F10 (121)F11键：VK_F11 (122)F12键：VK_F12 (123)Num Lock键：VK_NUMLOCK (144) 小键盘0：VK_NUMPAD0 (96) 小键盘1：VK_NUMPAD0 (97) 小键盘2：VK_NUMPAD0 (98) 小键盘3：VK_NUMPAD0 (99) 小键盘4：VK_NUMPAD0 (100) 小键盘5：VK_NUMPAD0 (101) 小键盘6：VK_NUMPAD0 (102) 小键盘7：VK_NUMPAD0 (103) 小键盘8：VK_NUMPAD0 (104) 小键盘9：VK_NUMPAD0 (105) 小键盘.：VK_DECIMAL (110) 小键盘*：VK_MULTIPLY (106) 小键盘+：VK_MULTIPLY (107) 小键盘-：VK_SUBTRACT (109) 小键盘/：VK_DIVIDE (111) Pause Break键：VK_PAUSE (19) Scroll Lock键：VK_SCROLL (145)。

EP..F+KMPCharacterised control valve with sensor-operated flow control with fail-safe, 2-way, Flange, PN 16 (EPIV)• Nominal voltage AC/DC 24 V• Control modulating, communicative • For closed cold and warm water systems • For modulating control of air-handling and heating systems on the water side• Communication via Belimo MP-Bus or conventional control• Conversion of active sensor signals and switching contactsType OverviewType DN V'nom [l/s]V'nom [l/min]V'nom [m³/h]kvs theor. [m³/h]PN EP065F+KMP 65848028.85016EP080F+KMP 801166039.67516EP100F+KMP 1002012007212716EP125F+KMP 125311860111.619516EP150F+KMP15045270016225416kvs theor.: Theoretical kvs value for pressure drop calculationTechnical dataElectrical dataNominal voltageAC/DC 24 V Nominal voltage frequency 50/60 HzNominal voltage rangeAC 19.2...28.8 V / DC 21.6...28.8 V Power consumption in operation 10 W (DN 65, 80)13 W (DN 100, 125, 150)Power consumption in rest position 5 W (DN 65, 80)7 W (DN 100, 125, 150)Power consumption for wire sizing 20 VA (DN 65, 80)24 VA (DN 100, 125, 150)Connection supply / control Cable 1 m, 4x 0.75 mm²Parallel operationYes (note the performance data)Data bus communicationCommunicative control MP-Bus Number of nodesMP-Bus max. 8Functional dataOperating range Y 2...10 V Input impedance100 kΩOperating range Y variable Start point 0.5...24 V End point 8.5...32 V Operating modes optional Modulating (DC 0...32 V)Position feedback U 2...10 V Position feedback U note Max. 1 mA Position feedback U variable Start point 0.5...8 V End point 2...10 VSetting fail-safe position NC/NO or adjustable 0...100% (POP rotary knob)Bridging time (PF) variable 0...10 s Running time fail-safe 35 s / 90°Sound power level Motor45 dB(A)EP..F+KMPTechnical dataFunctional data Sound power level, fail-safe61 dB(A)V'max adjustable30...100% of V'nomControl accuracy±5% (of 25...100% V'nom) @ 20°C / Glycol 0%vol.Control accuracy note±10% (of 25...100% V'nom) @ -10...120°C /Glycol 0...50% vol.Min. controllable flow1% of V'nomFluid Cold and warm water, water with glycol up tomax. 50% vol.Fluid temperature-10...120°C [14...248°F]Close-off pressure ∆ps690 kPaDifferential pressure Δpmax340kPaFlow characteristic equal percentage, optimised in the openingrange (switchable to linear)Leakage rate air-bubble tight, leakage rate A (EN 12266-1)Pipe connection Flangeaccording to EN 1092-2Installation orientation upright to horizontal (in relation to the stem)Servicing maintenance-freeManual override with push-buttonFlow measurement Measuring principle Ultrasonic volumetric flow measurementMeasuring accuracy flow±2% (of 25...100% V'nom) @ 20°C / glycol 0%vol.Measuring accuracy flow note±6% (of 25...100% V'nom) @ -10...120°C /glycol 0...50% vol.Min. flow measurement0.5% of V'nomSafety data Protection class IEC/EN III, Safety Extra-Low Voltage (SELV)Degree of protection IEC/EN IP54Pressure equipment directive CE according to 2014/68/EUEMC CE according to 2014/30/EUType of action Type 1.AARated impulse voltage supply / control0.8 kVPollution degree3Ambient humidity Max. 95% RH, non-condensingAmbient temperature-30...50°C [-22...122°F]Storage temperature-20...80°C [-4...176°F]Materials Valve body EN-GJL-250 (GG 25)Flow measuring pipe EN-GJL-250 (GG 25), with protective paintClosing element Stainless steel AISI 316Spindle Stainless steel AISI 304Spindle seal EPDMSeat PTFE, O-ring VitonTerms Abbreviations POP = Power off position / fail-safe positionPF = Power fail delay time / bridging timeEP..F+KMP••••Safety notesThis device has been designed for use in stationary heating, ventilation and air-conditioning systems and must not be used outside the specified field of application, especially in aircraft or in any other airborne means of transport.Outdoor application: only possible in case that no (sea) water, snow, ice, insolation or aggressive gases interfere directly with the device and that it is ensured that the ambient conditions remain within the thresholds according to the data sheet at any time.Only authorised specialists may carry out installation. All applicable legal or institutional installation regulations must be complied with during installation.The device contains electrical and electronic components and must not be disposed of as household refuse. All locally valid regulations and requirements must be observed.Product featuresOperating modeThe HVAC performance device is comprised of three components: characterised control valve (CCV), measuring pipe with flow sensor and the actuator itself. The adjusted maximum flow (V'max) is assigned to the maximum control signal (typically 10 V / 100%). The HVACperformance device can be controlled via communicative or analogue signals. The fluid is detected by the sensor in the measuring pipe and is applied as the flow value. The measured value is balanced with the setpoint. The actuator corrects the deviation by changing the valve position. The angle of rotation α varies according to the differential pressure through the control element (see flow curves).With the supply voltage the integrated condensors will be charged.Interrupting the supply voltage causes the valve to be moved to the selected fail-safe position by means of stored electrical energy.Flow rate curvesPre-charging time (start up)The capacitor actuators require a pre-charging time. This time is used for charging thecapacitors up to a usable voltage level. This ensures that, in the event of a power failure, theactuator can move at any time from its current position into the preset fail-safe position.The duration of the pre-charging time depends mainly on following factors:– Duration of the power failure– PF delay time (bridging time)Typical pre-charging time[d] = Power failure in days[s] = Pre-charging time in secondsPF[s] = Bridging timeCalculation example: Given a power failure of3 days and a bridging time (PF) set at 5 s, theactuator requires a pre-charging time of 14 safter the power has been reconnected (seegraphic).Delivery condition (capacitors)The actuator is completely discharged after delivery from the factory, which is why theactuator requires approximately 20 s pre-charging time before initial commissioning in orderto bring the capacitors up to the required voltage level.Bridging time Power failures can be bridged up to a maximum of 10 s.In the event of a power failure, the actuator will remain stationary in accordance with the setbridging time. If the power failure is greater than the set bridging time, the actuator willmove into the selected fail-safe position.The bridging time set at the factory is 2 s. It can be modified on site in operation by means ofthe Belimo service tool MFT-P.Settings: The rotary knob must not be set to the "Tool" position!For retroactive adjustments of the bridging time with the Belimo service tool MFT-P or withthe ZTH EU adjustment and diagnostic device only the values need to be entered.Setting fail-safe position The rotary knob fail-safe position can be used to adjust the desired fail-safe position 0...100%in 10% increments. The rotary knob always refers to the adapted angle of rotation range. Inthe event of a power failure, the actuator will move into the selected fail-safe position.Settings: The rotary knob must be set to the «Tool» position for retroactive settings of the fail-safe position with the Belimo service tool MFT-P. Once the rotary knob is set back to the range0…100%, the manually set value will have positioning authority.Transmission behaviour HE Heat exchanger transmission behaviourDepending on the construction, temperature spread, fluid characteristics and hydronic circuit,the power Q is not proportional to the water volumetric flow V' (Curve 1). With the classicaltype of temperature control, an attempt is made to maintain the control signal Y proportionalto the power Q (Curve 2). This is achieved by means of an equal-percentage flow characteristic(Curve 3).Control characteristics The fluid velocity is measured in the measuring component (sensor electronics) and converted to a flow rate signal.The control signal Y corresponds to the power Q via the exchanger, the volumetric flow isregulated in the EPIV. The control signal Y is converted into an equal-percentagecharacteristic curve and provided with the V'max value as the new reference variable w. Themomentary control deviation forms the control signal Y1 for the actuator.The specially configured control parameters in connection with the precise flow rate sensorensure a stable quality of control. They are however not suitable for rapid control processes,i.e. for domestic water control. U5 displays the measured flow as voltage (factory setting).Parametrising V'max with ZTH EU:U5 refers to the respective V'nom, i.e. if V'max is e.g. 50% of V'nom, then Y = 10 V, U5 = 5 V.Parametrising V'max with PC-Tool:In the PC-Tool, the maximum flow rate to which U5 refers can be set individually. If V'max ischanged (e.g. to 70% V'nom), the U5 flow range is also automatically changed to the samevalue (e.g. 70% V'nom: U5 = 10 V). This adjustment can be reversed by entering a valuemanually (U5 flow range = 100%: U5 refers to V'nom).As an alternative, U5 can be used for displaying the valve opening angle.1. Standard equal percentage V'max = V'nom /2. effect V'max < V'nomFlow controlV'nom is the maximum possible flow.V'max is the maximum flow rate which has been set with the highest control signal. V'max can be set between 30% and 100% of V'nom.EP..F+KMPCreep flow suppressionGiven the very low flow speed in the opening point, this can no longer be measured by the sensor within the required tolerance. This range is overridden electronically.Opening valveThe valve remains closed until the flow required by the control signal DDC corresponds to 1% of V'nom. The control along the flow characteristic is active after this value has been exceeded.Closing valveThe control along the flow characteristic is active up to the required flow rate of 1% of V'nom. Once the level falls below this value, the flow rate is maintained at 1% of V'nom. If the level falls below the flow rate of 0.5% of V'nom required by the control signal DDC, then the valvewill close.Converter for sensorsConnection option for a sensor (active sensor or switching contact). The MP actuator serves as an analogue/digital converter for the transmission of the sensor signal via MP-Bus to the higher level system.Configurable actuators The factory settings cover the most common applications. Single parameters can be modified with the Belimo service tools MFT-P or ZTH EU.Control signal inversionThis can be inverted in cases of control with an analogue control signal. The inversion causes the reversal of the standard behaviour, i.e. at a control signal of 0%, regulation is to V'max, and the valve is closed at a control signal of 100%.Hydronic balancingWith the Belimo tools, the maximum flow rate (equivalent to 100% requirement) can be adjusted on-site, simply and reliably, in a few steps. If the device is integrated in themanagement system, then the balancing can be handled directly by the management system.Manual override Manual control with push-button possible - temporary. The gear train is disengaged and the actuator decoupled for as long as the button is pressed.High functional safetyThe actuator is overload protected, requires no limit switches and automatically stops when the end stop is reached.Product featuresAccessoriesGatewaysDescriptionType Gateway MP to BACnet MS/TP UK24BAC Gateway MP to Modbus RTUUK24MOD Electrical accessoriesDescriptionType Stem heater flange F05 (30 W)ZR24-F05MP-Bus power supply for MP actuatorsZN230-24MP ToolsDescriptionTypeService tool, with ZIP-USB function, for parametrisable and communicative Belimo actuators, VAV controller and HVAC performance devicesZTH EU Belimo PC-Tool, Software for adjustments and diagnostics MFT-P Adapter for Service-Tool ZTH MFT-CEP..F+KMPDescriptionType Connecting cable 5 m, A: RJ11 6/4 ZTH EU, B: 6-pin for connection to service socketZK1-GEN Connecting cable 5 m, A: RJ11 6/4 ZTH EU, B: free wire end for connection to MP/PP terminalZK2-GENAccessories•••••Wire colours:1 = black 2 = red 3 = white 5 = orangeElectrical installationSupply from isolating transformer.Parallel connection of other actuators possible. Observe the performance data.AC/DC 24 V, modulatingOperation on the MP-BusCable colours:1 = black 2 = red 3 = white 5 = orangeConnection of external switching contactConnection of active sensorsSwitching current 16 mA @ 24 VStart point of the operating range must be parametrised on the MP actuator as ≥0.5 VSupply AC/DC 24 VOutput signal 0...10 V (max. 0...32 V)Resolution 30 mVEP..F+KMPFunctionsFunctions when operated on MP-Bus Connection on the MP-BusMP-Bus Network topologyA) additional MP-Bus nodes(max. 8)There are no restrictions for the network topology (star, ring, tree or mixed forms are permitted).Supply and communication in one and the same 3-wire cable • no shielding or twisting necessary• no terminating resistors requiredFunctions with specific parameters (parametrisation necessary)Override control and limiting with AC 24 V with relay contactsOverride control and limiting with DC 24 V with relay contactsControl 3-pointPosition control: 90° = 100s Flow control: Vmax = 100sEP..F+KMP Operating controls and indicators2Push-button and LED display greenOff:No power supply or malfunctionOn:In operationPress button:Triggers angle of rotation adaptation, followed by standard mode3Push-button and LED display yellowOff:Standard modeOn:Adaptation or synchronisation process activeFlickering:MP-Bus communication activePress button:Confirmation of the addressing4Manual override buttonPress button:Gear train disengages, motor stops, manual override possibleRelease button:Gear train engages, standard mode5Service plugFor connecting parametrisation and service toolsCheck power supply connection2 Off and3 On Possible wiring error in power supplySetting fail-safe positionSetting emergency setting position (POP)EP..F+KMPInstallation notesPermissible installation orientation The ball valve can be installed upright to horizontal. The ball valve may not be installed in ahanging position, i.e. with the spindle pointing downwards.Installation location in return Installation in the return is recommended.Water quality requirements The water quality requirements specified in VDI 2035 must be adhered to.Belimo valves are regulating devices. For the valves to function correctly in the long term, theymust be kept free from particle debris (e.g. welding beads during installation work). Theinstallation of a suitable strainer is recommended.The water must exhibit a conductivity ≥ 20 μS/cm during operation for correct functioning. Itshould be noted that, under normal circumstances, even filling water with a lowerconductivity will experience an elevation of its conductivity to above the minimum requiredvalue during filling and that the system can thus be put into operation.Elevation of conductivity during filling caused by:- untreated residual water from pressure test or pre-rinsing- metal salts (e.g. surface rust) dissolved out of the raw materialSpindle heater In cold water applications and warm humid ambient air, condensation can be caused in theactuators. This can lead to corrosion in the gear train of the actuator and a breakdown of theactuator. In such applications, the use of a spindle heater is recommended.The spindle heater must only be activated when the system is in operation because it does nothave a temperature controller.Servicing Ball valves, rotary actuators and sensors are maintenance-free.Before any service work on the control element is carried out, it is essential to isolate therotary actuator from the power supply (by unplugging the electrical cable if necessary). Anypumps in the part of the piping system concerned must also be switched off and theappropriate slide valves closed (allow all components to cool down first if necessary andalways reduce the system pressure to ambient pressure level).The system must not be returned to service until the ball valve and the rotary actuator havebeen correctly reassembled in accordance with the instructions and the pipeline has beenrefilled by professionally trained personnel.Flow direction The direction of flow, specified by an arrow on the housing, is to be complied with, sinceotherwise the flow rate will be measured incorrectly.EP..F+KMP Inlet section In order to achieve the specified measuring accuracy, a flow-calming section or inflow sectionin the direction of the flow is to be provided upstream from the flow sensor. Its dimensionsshould be at least 5x DN.Split installation The valve-actuator combination may be mounted separately from the flow sensor. The direction of flow of both components must be observed.Installation notesGeneral notesMinimum differential pressure (pressuredrop)The minimum required differential pressure (pressure drop through the valve) for achieving the desired volumetric flow V'max can be calculated with the aid of the theoretical kvs value (see type overview) and the below-mentioned formula. The calculated value is dependent onthe required maximum volumetric flow V'max. Higher differential pressures are compensatedfor automatically by the valve.FormulaExample (DN 100 with the desired maximum flow rate = 50% V'nom)Behaviour in case of sensor failure In case of a flow sensor error, the EPIV will switch from flow control to position control.Once the error disappears, the EPIV will switch back to the normal control setting.EP..F+KMPServiceTools connection The actuator can be parametrised by ZTH EU via the service socket.For an extended parametrisation the PC tool can be connected.Connection ZTH EU / PC-ToolDimensionsDimensional drawingsIf Y <180 mm, the extension of the hand crank must be demounted as necessary.Further documentation• Overview MP Cooperation Partners• Tool connections• Introduction to MP-Bus Technology• General notes for project planning。

S E R I E S 6 S O L E N O I D V A L V E SSeries 6directly operated solenoid valves2/2-way - Normally Closed (NC)3/2-way - Normally Closed (NC), Normally Open (NO)Series 6 solenoid valves are available as 2/2 and 3/2-way, either NC or NO.These directly operated solenoid valves can be used either with or without lubrication.The bodies of these valves can be used either individually or in manifolds.The latter are provided with G1/8 threaded ports or an inbuilt diameter 4 cartridge(G3/8 for 2-way only).»Ports: G1/8, G3/8, cartridge Ø4»Available also in version for the low temperatures up to -50°CGENERAL DATATECHNICAL FEATURES Function OperationPneumatic connections Nominal diameter Nominal flowFlow coefficient kv (l/min) Operating pressure Operating temperature MediaResponse time Manual override Installation2/2 NC - 3/2 NC - 3/2 NO direct acting poppet typeG1/8, G3/8 threads - ø4 fitting - CNOMO interface 2 … 4 mm80 … 350 Nl/min (air @ 6 bar ΔP 1 bar) 1.2 … 5.40 ÷ 4 … 15 bar0°C ÷ 60°C (seals in FKM) / -50°C ÷ +50°C (seals in NBR)filtered air, class 5.4.4 (5.1.4 for versions -50°C) according to ISO 8573-1 (max oil viscosity 32 cSt), inert gas ON <15 msec - OFF <15 msec see tables in any positionMATERIALS IN CONTACT WITH THE MEDIUM Body SealsInternal parts nickel-plated brass - anodized aluminium FKM (NBR for versions -50°C) stainless steelELECTRICAL FEATURES VoltageVoltage tolerance Power consumption Duty cycleElectrical connection Protection class12 … 110 V DC - 24 … 230 V AC 50/60 Hz ±10% (DC) - +10% ÷ -15% (AC)10 W (DC) - 19 VA (inrush AC), 12 VA (holding AC) ED 100% H (180°C)with connector DIN EN 175 301-803-A IP65 with connectorSpecial versions available on demandS E R I E S 6 S O L E N O I D V A L V E SCODING EXAMPLES E R I E S 6 S O L E N O I D V A L V ES3/2-way NC and NO solenoid valve, G1/8 - Mod. 638 and Mod. 648These valves are particularly suitable for operating single-acting cylinders or for use as signal valves.In the mod. 648-150-A6* (NO) connections 1 and 3 are inverted, while the max operating pressure is 6 bar in case a solenoid A6B, A6C, A6D, A6E is chosen.* = choose the solenoid voltage according to theCODING EXAMPLE3/2-way NC solenoid valve - Mod. 638M and Mod. 63CMThese solenoid valves are equipped with a manual override and are available with G1/8 inlet ports and with G1/8outlets or with a diameter 4 cartridge. The body is supplied complete with screws and O-ring.* = choose the solenoid voltage according to theCODING EXAMPLES E R I E S 6 S O L E N O I D V A L V E S3/2-way NC solenoid valve - Mod. 600These solenoid valves are equipped with an override and are available with two types of interface:A = fixed interfaceB = swivel interface* = choose the solenoid voltage according to the CODING EXAMPLE2/2-way solenoid valves NC, G3/8 - Mod. 623Connector Mod. 124-... DIN EN 175 301-803-AProtection class IP65。

G6100CS•••••Type overviewType DN G6100CS100Technical dataFunctional dataValve size [mm]4" [100]Fluidchilled or hot water, up to 60% glycol, steam Fluid Temp Range (water)32...350°F [0...176°C]Fluid Temp Range (steam)32...338°F [0...170°C]Body Pressure Rating ANSI Class 125, up to 175 psi below 150°F Flow characteristic equal percentageServicing repack/rebuild kits available Rangeability Sv98:1Max Differential Pressure (Steam)50 psi [345 kPa]Flow Pattern 2-way Leakage rateANSI Class III Controllable flow range stem up - open A – AB Cv170Maximum Inlet Pressure (Steam)100 psi [690 kPa]MaterialsValve body Cast iron - ASTM A126 Class B Valve plug Stainless steel Stem 316 stainless steel Stem seal NLP EPDM (no lip packing)SeatStainless steel AISI 316Pipe connection125 lb flanged Suitable actuatorsNon-Spring EVB(X)Spring(2*AFB(X))Electrical fail-safeAVKB(X)Safety notesWARNING: This product can expose you to lead which is known to the State of California to cause cancer and reproductive harm. For more information go to The valve has been designed for use in stationary heating, ventilation and air-conditioning systems and must not be used outside the specified field of application, especially in aircraft or in any other airborne means of transport.Only authorized specialists may carry out installation. All applicable legal or institutional installation regulations must be complied during installation.The valve does not contain any parts that can be replaced or repaired by the user.When determining the flow rate characteristic of controlled devices, the recognised directives must be observed.G6100CS Product featuresFlow/Mounting detailsDimensionsType DN WeightG6100CS100125.69 lb [57 kg]EVB, EVX, RVB, RVXA B C D E F Number of Bolt Holes13.7" [349]13.0" [330]26.6" [676]19.8" [502]4.5" [114]4.5" [114]82*AFB, 2*AFXA B C D E F Number of Bolt Holes13.7" [349]13.0" [330]30.0" [762]23.2" [590]4.5" [114]5.3" [135]8G6100CSAVKB, AVKXA B C D E F Number of Bolt Holes13.7" [349]13.0" [330]26.6" [676]19.8" [502]4.5" [114]4.5" [114]8Modulating, Spring Return, 24 V, Multi-Function Technology®Technical dataElectrical data Nominal voltage AC/DC 24 VNominal voltage frequency50/60 HzNominal voltage range AC 19.2...28.8 V / DC 21.6...28.8 VPower consumption in operation7.5 WPower consumption in rest position 3 WTransformer sizing20 VAAuxiliary switch 2 x SPDT, 3 A resistive (0.5 A inductive) @ AC250 V, one set at 10°, one adjustable 10...90°Switching capacity auxiliary switch 3 A resistive (0.5 A inductive) @ AC 250 VElectrical Connection(2) 18 GA appliance cables, 1 m, 3 m or 5 m,with or without 1/2" conduit connectorsOverload Protection electronic throughout 0...95° rotationFunctional data Operating range Y 2...10 VOperating range Y note 4...20 mA w/ ZG-R01 (500 Ω, 1/4 W resistor)Input Impedance100 kΩ for 2...10 V (0.1 mA), 500 Ω for 4 (20)mA, 1500 Ω for PWM, On/Off and Floating pointOperating range Y variable Start point 0.5...30 VEnd point 2.5...32 VOperating modes optional variable (VDC, PWM, on/off, floating point)Position feedback U 2...10 VPosition feedback U note Max. 0.5 mAPosition feedback U variable VDC variableDirection of motion motor selectable with switch 0/1Direction of motion fail-safe reversible with cw/ccw mountingManual override 5 mm hex crank (3/16" Allen), suppliedAngle of rotation95°Angle of rotation note adjustable with mechanical end stop, 35...95°Running Time (Motor)150 s / 90°Running time motor variable70...220 sRunning time fail-safe<20 sOverride control MIN (minimum position) = 0%MID (intermediate position) = 50%MAX (maximum position) = 100%Noise level, motor40 dB(A)Noise level, fail-safe62 dB(A)Position indication MechanicalSafety data Power source UL Class 2 SupplyDegree of protection IEC/EN IP54Degree of protection NEMA/UL NEMA 2Enclosure UL Enclosure Type 2FootnotesSafety dataAgency Listing cULus acc. to UL60730-1A/-2-14, CAN/CSA E60730-1:02, CE acc. to 2014/30/EU Quality Standard ISO 9001UL 2043 CompliantSuitable for use in air plenums per Section 300.22(C) of the NEC and Section 602 of the IMCAmbient humidity Max. 95% RH, non-condensing Ambient temperature -22...122°F [-30...50°C]Storage temperature -40...176°F [-40...80°C]Servicingmaintenance-free Weight Weight9.26 lb [4.2 kg]MaterialsHousing material Galvanized steel and plastic housing*Variable when configured with MFT options.AccessoriesGatewaysDescriptionType Gateway MP to BACnet MS/TP UK24BAC Gateway MP to Modbus RTU UK24MOD Gateway MP to LonWorksUK24LON Electrical accessoriesDescriptionType Service Tool, with ZIP-USB function, for programmable andcommunicative Belimo actuators, VAV controller and HVAC performance devicesZTH USToolsDescriptionTypeConnection cable 10 ft [3 m], A: RJ11 6/4 ZTH EU, B: 3-pin Weidmüller and supply connectionZK4-GEN Service Tool, with ZIP-USB function, for programmable and communicative Belimo actuators, VAV controller and HVAC performance devicesZTH USElectrical installationWarning! Live electrical components!During installation, testing, servicing and troubleshooting of this product, it may be necessary to work with live electrical components. Have a qualified licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical componentscould result in death or serious injury.Meets cULus requirements without the need of an electrical ground connection.Actuators with appliance cables are numbered.Apply only AC line voltage or only UL-Class 2 voltage to the terminals of auxiliary switches.Mixed or combined operation of line voltage/safety extra low voltage is not allowed.Provide overload protection and disconnect as required.Actuators may also be powered by DC 24 V.Two built-in auxiliary switches (2x SPDT), for end position indication, interlock control, fanstartup, etc.Only connect common to negative (-) leg of control circuits.A 500 Ω resistor (ZG-R01) converts the 4...20 mA control signal to 2...10 V.Control signal may be pulsed from either the Hot (Source) or Common (Sink) 24 V line.For triac sink the Common connection from the actuator must be connected to the Hotconnection of the controller. Position feedback cannot be used with a triac sink controller; theactuator internal common reference is not compatible.IN4004 or IN4007 diode. (IN4007 supplied, Belimo part number 40155).Actuators may be controlled in parallel. Current draw and input impedance must be observed.Master-Slave wiring required for piggy-back applications. Feedback from Master to controlinput(s) of Slave(s).Wiring diagramsOn/Off Floating PointVDC/mA Control PWM ControlOverride Control Primary - SecondaryAuxiliary Switches。

1线路保护1.1欧阳引擎（2021.01.01）1.2技术参数1.2.1环境条件装置在以下环境条件下能正常工作：(1)工作环境温度：-10℃～＋55℃。

运输中短暂的贮存环境温度-25℃～＋70℃，在极限值下不施加激励量，装置不出现不可逆的变化，温度恢复后，装置应能正常工作；(2)相对湿度：最湿月的月平均最大相对湿度为90％，同时该月的月平均最低温度为25℃且表面无凝露；(3)大气压力：80kPa～110kPa；(4)使用场所不得有火灾、爆炸、腐蚀等危及装置安全的危险和超出本说明书规定的振动、冲击和碰撞。

1.2.2额定参数(1)交流电压Un：100/ 3 V；线路抽取电压Ux：100V 或100/ 3 V；(2)交流电流In：5A ，1A；(3)交流频率： 50Hz；(4)直流电压： 220V，110V；(5)开入输入直流电压：24V(默认)，也可以选择220V 或110V。

1.2.3交流回路精确工作范围(1)相电压： 0.25V～70V ；(2)检同期电压： 0.4V～120V ；(3)电流： 0.08In～30In。

1.2.4差动元件(1)整定范围： 0.1In～2In；级差0.01A；(2)整定值误差：不大于±2.5% 或±0.02 In；(3)动作时间： 2 倍整定值时，不大于20ms。

1.2.5距离元件(1)整定范围：0.01Ω～40Ω(5A)；0.05Ω～200Ω(1A)；级差0.01Ω；(2)距离I 段的暂态超越：不大于±4%；(3)距离I 段动作时间：近处故障不大于15ms；(4)0.7 倍整定值以内时，不大于20ms；(5)测距误差（不包括装置外部原因造成的误差）(6)金属性短路故障电流大于0.01 In 时，不大于±2%，有较大过渡电阻时测距(7)误差将增大。

1.2.6零序方向过流元件(1)整定范围：0.1In ～20In；级差0.01A；(2)零序I 段的暂态超越：不大于±4%。

KGPS六型中频电源控制板恒功率中频电源控制板是我们积多年从事中频电源工作而开发的第六代中频电源控制板。

1．控制电路原理整个控制电路除逆变末级触发电路板外，做成一块印刷电路板结构，从功能上分为整流触发部分、调节器部分、逆变部分、起动演算部分。

(1) 整流触发工作原理这部分电路包括三相同步、数字触发、末级驱动等电路。

触发部分采用的是数字触发，具有可靠性高、精度高、调试容易等特点。

数字触发器的特征是用计(时钟脉冲)数的办法来实现移相，该数字触发器的时钟脉冲振荡器是一种电压控制振荡器，输出脉冲频率受α移相控制电压Vk的控制，Vk降低，则振荡频率升高，而计数器的计数量是固定的(256)，计数器脉冲频率高，意味着计一定脉冲数所需时间短，也即延时时间短，α角小，反之α角大。

计数器开始计数时刻同样受同步信号控制，在α=0度时开始计数。

现假设在某Vk值时，根据压控振荡器的控制电压与频率间的关系确定输出振荡频率为25kHz，则在计数到256个脉冲所需的时间为(1/25000)×256=10.2(mS)，相当于约180°电角度，该触发器的计数清零脉冲在同步电压(线电压)的30度处，这相当于三相全控桥式整流电路的β=30度位置，从清零脉冲起，延时10.2mS产生的输出触发脉冲，也即接近于三相桥式整流电路某一相晶闸管α=150度位置，如果需要得到准确的α=150度触发脉冲，可以稍微调节一下电位器W4。

显然，有三套相同的触发电路，而压控振荡器和Vk控制电压为公用，这样在一个周期中产生6个相位差60度的触发脉冲。

数字触发器的优点是工作稳定，特别是用HTL或CMOS数字集成电路，则可以有很强的抗干扰能力。

IC16A及其周围电路构成电压——频率转换器，其输出信号的周期随调节器的输出电压Vk而线性变化。

这里W4微调电位器是最低输出频率调节(相当于模拟电路锯齿波幅值调节)。

三相同步信号直接由晶闸管的门极引线K4、K6，K2从主回路的三相进线取得，由R23，C1，R63，C40，R102，C63进行滤波及移相，再经6只光电耦合器进行电位隔离，获得6个相位互差60度、占空比略小于50%的矩形波同步信号(如IC2C、IC2D)的输出。