CA-QFE128SA-M-N-T-01中文资料

Page 1 of 2APPLICATIONThe ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack supports 10GBASE-T networks. The jack is part of a complete ATLAS-X1 Cat 6A UTP system, ideal for the most demanding mission-critical network applications. The connector supports emerging technologies and will easily adapt to network trends.SPECIFICATIONThe jack shall meet or exceed the requirements for channel and component-level electrical transmission performance as described in ANSI/TIA-568.2-D (Cat 6A), ISO/IEC11801-1 (Class E A ), and EN 50173-1 (Class E A ). The jack shall be compliant with ANSI/TIA-1096-A, c(UL)us Listed, and be independently verified for electrical transmission performance and power delivery. The jack body shall be made of die-cast zinc and all plastic components shall be made of high-impact, fire-retardant plastic rated UL 94V-0. The jack shall support tool-free termination and re-termination and shall not require a specialized termination tool. The jack wiring shall be universal to accommodate T568A and T568B wiring schemes. The jack shall be available in 13 colors; more than established by the ANSI/TIA-606-C standard. The jack shall be offered in standard and shuttered styles and select jacks shall be supplied with interchangeable icons. The jack shall be compliant with IEEE 802.3 PoE Type 1, 2, 3, 4 (100 watts max).DESIGN CONSIDERATIONS• Use in any QUICKPORT™ housing to support Cat 6A UTP connectivity in surface-mount, flush-mount, or modular furniture outlets and field-configurable panels• Can be used in conjunction with other QUICKPORT snap-in modules for voice/data/video applications over UTP , coax, and fiber• To identify ports, use different colored modules andicons for each application (full selection of ANSI/TIA-606 compatible colors, 13 available)• Robust housing and shutter protects the jack in harsh environmentsATLAS-X1™ Cat 6A Component-Rated UTP QUICKPORT™ Jack6AUJK-xx6, ICONS-ICxFEATURES• Independently tested and guaranteed to exceed all component, permanent link, and channel margins• Patented Retention Force Technology™ (RFT) protects against tine damage and increases system longevity • For Power over Ethernet, RFT maintains contact force between plug and jack, preventing arcing from intermittent disconnects• Unique design supports tool-free termination andre-termination and requires no specialized termination tool • Short jack design supports a wider range of applications (e.g. shallow boxes, enclosures, bend radius, etc.)• Terminates from 26 to 22 AWG solid or stranded conductors for use on various cable types• Robust IDCs can withstand 20 re-termination cycles and jack contacts are tested for 750 plug-mating cycles to ensure system longevity• Available in 13 ANSI/TIA-606-C compatible colors • Tested and approved for use in air-handling spaces (plenum rating) in accordance with UL Standard 2043• Select jacks available with interchangeable icons (voice, data, A/V, blank) for easy ID• Jack with internal shutter protects against dust and debris • Solid metal body dissipates 53% more heat than plastic, minimizing damage from excess heat in PoE applications • Tine geometry prevents arcing damage where plug and jack make contactSTANDARDS & REGULATIONS• ANSI/TIA-568.2-D (Cat 6A)• ISO/IEC 11801-1 (Cat 6A)• EN 50173-1 (Cat 6A)• ANSI/TIA-1096-A (formerly FCC Part 68)• IEC 60603-7 (includes IEC 60512-5-2)• IEC 60512-99-002• IEEE 802.3 PoE Type 1, 2, 3, 4 (100 watts max)• Cisco UPOE, UPOE+ (90 watts max)• Power over HDBaseT™ PoH (95 watts max)• c(UL)us Listed (UL 1863)• UL 2043 Plenum Certified • RoHS 3• ETL verified to meet the IEC 60512-99-002 standard for support of IEEE 802.3 Type 4 PoE (100 watt) applicationsCOUNTRY OF ORIGINUSA and Mexico (Contact Customer Service for details)6AUJK-xx6, ICONS-ICxUSANetwork Solutions Headquarters +1 (800) 722 2082 *******************Leviton Berk-Tek Cable : +1 (800) 237 5835 ************************Asia Pacific+852 3620 2602********************Canada+1 (800) 461 2002**********************Europe+44 (0) 1592 772124 **********************Latin AmericaMX: +52 (55) 2128 6286 LATAM: +52 (55) 2333 5963 *********************Middle East & Africa +971 (4) 247 9800 *******************NETWORK SOLUTIONS PRODUCTS ARE AVAILABLE WORLDWIDE IN OVER 100 COUNTRIES. VISIT US ONLINE AT /NS TO LEARN MORE.Page 2 of 2For further support information, visit /ns/support6AUJK-xx6, ICONS-ICx6AUJK-xx6, ICONS-ICxMECHANICAL SPECIFICATIONSDimensions:See belowMaterials: Jack Body: Die-cast zincSpring-Wire Contacts: High quality, copper-based alloy, plated with 50 microinches of gold for lowest contact resistance andmaximum life Temp. (Storage):Temp. (Installation): Temp. (Operating):Humidity (Max.):WARRANTY INFORMATIONFor Leviton product warranties, go to /ns/warrantyPART NUMBERDescriptionStandard Jack Jack with Shutter GREENPACK™12-Pack Standard Jack ATLAS-X1™ Cat 6A Component-Rated UTP QUICKPORT™ Jack, white 6AUJK-RW66AUJK-SW66AUJK-CW6ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, light almond 6AUJK-RT66AUJK-ST6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, ivory 6AUJK-RI66AUJK-SI6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, yellow 6AUJK-RY66AUJK-SY6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, orange 6AUJK-RO66AUJK-SO6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, crimson 6AUJK-RC66AUJK-SC6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, dark red 6AUJK-RR66AUJK-SR6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, purple 6AUJK-RP66AUJK-SP6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, blue 6AUJK-RL66AUJK-SL66AUJK-CL6ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, green 6AUJK-RV66AUJK-SV6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, gray 6AUJK-RG66AUJK-SG6—ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, black6AUJK-RE66AUJK-SE66AUJK-CE6ATLAS-X1 Cat 6A Component-Rated UTP QUICKPORT Jack, brown6AUJK-RB66AUJK-SB6—Green (V)Blue (L)Purple (P)Crimson (C)Dark Red (R)Orange (O)Yellow (Y)Black (E)Gray (G)Ivory (I)Light Almond (T)Brown (B)Color-matched icons (ICONS-ICx) can be ordered separately in 72-quantity packs.x = icon color。

AT88SC0808CAAtmel CryptoMemorySUMMARY DATASHEETFeatures ∙ One of a family of devices with user memories from 1-Kbit to 8-Kbits ∙8-Kbit (1-Kbyte) EEPROM user memory∙ Eight 1-Kbit (128-byte) zones ∙ Self-timed write cycle∙ Single byte or 16-byte page write mode ∙ Programmable access rights for each zone∙ 2-Kbit configuration zone∙ 37-byte OTP (One-Time Programmable) area for user-defined codes ∙ 160-byte area for user-defined keys and passwords ∙High security features∙ 64-bit mutual authentication protocol (under license of ELVA) ∙ Cryptographic Message Authentication Codes (MAC) ∙ Stream encryption∙ Four key sets for authentication and encryption ∙ Eight sets of two 24-bit passwords ∙ Anti-tearing function∙ Voltage and frequency monitors∙Smart card features∙ ISO 7816 Class B (3V) operation∙ ISO 7816-3 asynchronous T=0 Protocol (Gemplus ®Patent) * ∙ Multiple zones, key sets and passwords for multi-application use ∙ Synchronous 2-wire serial interface for faster device initialization * ∙ Programmable 8-byte answer-to-reset register (ATR) ∙ISO 7816-2 compliant modules∙Embedded application features∙ Low voltage supply: 2.7V – 3.6V∙ Secure nonvolatile storage for sensitive system or user information ∙ 2-wire serial interface (TWI, 5V compatible) ∙ 1.0MHz compatibility for fast operation∙ Standard 8-lead plastic packages, green compliant (exceeds RoHS)∙Same pin configuration as Atmel ®AT24CXXX Serial EEPROM in SOIC and PDIP packages∙High reliability∙ Endurance: 100,000 cycles ∙ Data retention: 10 years ∙ ESD protection: 2,000V min* Note: Modules available with either T=0 / 2-wire modes or 2-wire mode onlyThis is a summary document. The complete document is available on the Atmel website at .AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720152Table 1. Pin AssignmentsPin Configuration123487658-lead SOIC, PDIPNC NCNC GNDV CCNC SCL SDA8-lead TSSOPNCV CC 81NC C N 72NCK L C 63GND 54SDA 12348765SDA GND CLK V CC8-lead Ultra Thin Mini-MAP (MLP 2x3)Bottom ViewNCNC NC NC TWI Smart Card ModuleV C C =C1 NC =C2 SCL/CLK=C3NC=C4C5=GND C6=NC C7=S D A /IO C8=NCISO Smart Card ModuleV C C =C1 RST=C2 SCL/CLK=C3NC=C4C5=GND C6=NC C7=S D A /IO C8=NCAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_07201531. DescriptionThe Atmel AT88SC0808CA member of the Atmel CryptoMemory ®family is a high-performance secure memory providing 8-Kbit of user memory with advanced security and cryptographic features built in. The user memory is divided into eight128-byte zones, each of which may be individually set with different security access rights or effectively combined together to provide space for one to eight data files. The AT88SC0808CA features an enhanced command set that allows directcommunication with microcontroller hardware 2-wire interface thereby allowing for faster firmware development with reduced code space requirements.1.1 Smart Card ApplicationsThe AT88SC0808CA provides high security, low cost, and ease of implementation without the need for a microprocessor operating system. The embedded cryptographic engine provides for dynamic, symmetric-mutual authentication between the device and host, as well as performing stream encryption for all data and passwords exchanged between the device and host. Up to four unique key sets may be used for these operations. The AT88SC0808CA offers the ability to communicate with virtually any smart card reader using the asynchronous T = 0 protocol (Gemplus Patent) defined in ISO 7816-3.1.2 Embedded ApplicationsThrough dynamic, symmetric-mutual authentication, data encryption, and the use of cryptographic Message Authentication Codes (MAC), the AT88SC0808CA provides a secure place for storage of sensitive information within a system. With its tamper detection circuits, this information remains safe even under attack. A 2-wire serial interface running at speeds up to 1.0MHz provides fast and efficient communications with up to 15 individually addressable devices. The AT88SC0808CA is available in industry standard 8-lead packages with the same familiar pin configuration as Atmel AT24CXXX Serial EEPROM devices. Note:Does not apply to either the TSSOP or the Ultra Thin Mini-Map pinoutsFigure 1-1. Block DiagramV CC GNDSCL/CLK SDA/IORSTAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_07201542. Connection DiagramFigure 2-1. Connection Diagram3.Pin Descriptions3.1Supply Voltage (V CC )The V CC input is a 2.7V to 3.6V positive voltage supplied by the host.3.2 Clock (SCL/CLK)When using the asynchronous T = 0 protocol, the CLK (SCL) input provides the device with a carrier frequency f . The nominal length of one bit emitted on I/O is defined as an “elementary time unit” (ETU) and is equal to 372/ f .When using the synchronous protocol, data clocking is done on the positive edge of the clock when writing to the device and on the negative edge of the clock when reading from the device.3.3 Reset (RST)The AT88SC0808CA provides an ISO 7816-3 compliant asynchronous answer-to-reset (ATR) sequence. Upon activation of the reset sequence, the device outputs bytes contained in the 64-bit ATR register. An internal pull-up on the RST input pad allows the device to operate in synchronous mode without bonding RST. The AT88SC0808CA does not support an ATR sequence in the synchronous mode of operation.3.4 Serial Data (SDA/IO)The SDA/IO pin is bidirectional for serial data transfer. This pin is open-drain driven and may be wired with any number of other open-drain or open-collector devices. An external pull-up resistor should be connected between SDA/IO and V CC . The value of this resistor and the system capacitance loading the SDA/IO bus will determine the rise time of SDA/IO. This rise time will determine the maximum frequency during read operations. Low value pull-up resistors will allow higher frequency operations while drawing higher average power supply current. SDA/IO information applies to both asynchronous andsynchronous protocols.AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_07201554. Absolute Maximum Ratings**Notice:Stresses beyond those listed under “AbsoluteMaximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other condition beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect device reliability.Table 4-1.DC CharacteristicsApplicable over recommended operating range from V CC = +2.7 to 3.6V, T AC = -40°C to +85°C (unless otherwise noted)Note:1. To prevent latch up conditions from occurring during power up of the AT88SC0808CA, V CC must be turned onbefore applying V IH . For powering down, V IH must be removed before turning V CC off.AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720156Table 4-2.AC CharacteristicsApplicable over recommended operating range from V CC = +2.7 to 3.6V, T AC = -40°C to +85°C, CL = 30pF (unless otherwise noted)5.Device Operations for Synchronous Protocols5.1Clock and Data TransitionsThe SDA pin is normally pulled high with an external device. Data on the SDA pin may change only during SCL low time periods (see Figure 5-3 on page 8). Data changes during SCL high periods will indicate a start or stop condition as defined below.5.1.1 Start conditionA high-to-low transition of SDA with SCL high defines a start condition which must precede all commands (see Figure 5-4 on page 8).5.1.2 Stop conditionA low-to-high transition of SDA with SCL high defines a stop condition. After a read sequence, the stop condition will place the EEPROM in a standby power mode (see Figure 5-4 on page 8).5.1.3 AcknowledgeAll addresses and data words are serially transmitted to and from the EEPROM in 8-bit words. The EEPROM sends a zero to acknowledge that it has received each word. This happens during the ninth clock cycle (see Figure 5-5 on page 8).AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_07201575.2 Memory ResetAfter an interruption in communication due protocol errors, power loss or any reason, perform "Acknowledge Polling" to properly recover from the condition. Acknowledge polling consists of sending a start condition followed by a valid CryptoMemory command byte and determining if the device responded with an acknowledge. Figure 5-1. Bus Time for 2-wire Serial CommunicationsSCL: Serial Clock, SDA: Serial Data I/OFigure 5-2. Write Cycle TimingSCL: Serial Clock, SDA: Serial Data I/ONote:The write cycle time t WR is the time from a valid stop condition of a write sequence to the end of the internal clear/write cycleSCLSDA INSDA OUTAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720158Figure 5-3. Data ValidityFigure 5-4. START and STOP DefinitionsFigure 5-5. Output AcknowledgeST ARTACKNOWLEDGESCLDAT A INDAT A OUT189AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_07201596.Device Architecture6.1User ZonesThe EEPROM user memory is divided into eight zones of 1-Kbit each. Multiple zones allow for storage of different types of data or files in different zones. Access to user zones is permitted only after meeting proper security requirements. These security requirements are user definable in the configuration memory during device personalization. If the same security requirements are selected for multiple zones, then these zones may effectively be accessed as one larger zone. Figure 6-1. User Zones7. Control LogicAccess to the user zones occur only through the control logic built into the device. This logic is configurable through access registers, key registers and keys programmed into the configuration memory during device personalization. Also implemented in the control logic is a cryptographic engine for performing the various higher-level security functions of the device.AT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_072015108. Configuration MemoryThe configuration memory consists of 2048 bits of EEPROM memory used for storage of passwords, keys, codes, and also used for definition of security access rights for the user zones. Access rights to the configuration memory are defined in the control logic and are not alterable by the user after completion of personalization. Figure 8-1. Configuration Memory9. Security FusesThere are three fuses on the device that must be blown during the device personalization process. Each fuse locks certain portions of the configuration zone as OTP (One-Time Programmable) memory. Fuses are designed for the modulemanufacturer, card manufacturer and card issuer and should be blown in sequence, although all programming of the device and blowing of the fuses may be performed at one final step.10. Communication Security ModesCommunications between the device and host operate in three basic modes. Standard mode is the default mode for thedevice after power-up. Authentication mode is activated by a successful authentication sequence. Encryption mode isactivated by a successful encryption activation following a successful authentication.Table 10-1. Communication Security Modes(1)Note: 1. Configuration data include viewable areas of the configuration zone except the passwords:•MDC: Modification Detection Code•MAC: Message Authentication Code11. Security Options11.1 Anti-TearingIn the event of a power loss during a write cycle, the integrity of the device’s stored data is recoverable. This function isoptional: the host may choose to activate the anti-tearing function, depending on application requirements. When anti-tearing is active, write commands take longer to execute, since more write cycles are required to complete them, and data is limited toa maximum of eight bytes for each write request.Data is written first into a buffer zone in EEPROM instead of the intended destination address, but with the same accessconditions. The data is then written in the required location. If this second write cycle is interrupted due to a power loss, the device will automatically recover the data from the system buffer zone at the next power-up. Non-volatile buffering of the data is done automatically by the device.During power-up in applications using anti-tearing, the host is required to perform ACK polling in the event that the deviceneeds to carry out the data recovery process.11.2 Write LockIf a user zone is configured in the write lock mode, the lowest address byte of an 8-byte page constitutes a write access byte for the bytes of that page.Example: The write lock byte at $080 controls the bytes from $081 to $087Figure 11-1. Write Lock ExampleThe write lock byte itself may be locked by writing its least significant (rightmost) bit to “0”. Moreover, when write lock mode is activated, the write lock byte can only be programmed – that is, bits written to “0” cannot return to “1”.In the write lock configuration, write operations are limited to writing only one byte at a time. Attempts to write more than one byte will result in writing of just the first byte into the device.11.3 Password VerificationPasswords may be used to protect read and/or write access of any user zone. When a valid password is presented, it ismemorized and active until power is turned off, unless a new password is presented or RST becomes active. There are eight password sets that may be used to protect any user zone. Only one password is active at a time. Presenting the correct write password also grants read access privileges.11.4 Authentication ProtocolThe access to a user zone may be protected by an authentication protocol. Any one of four keys may be selected to use with a user zone.Authentication success is memorized and active as long as the chip is powered, unless a new authentication is initialized or RST becomes active. If the new authentication request is not validated, the card loses its previous authentication which must be presented again to gain access. Only the latest request is memorized. Figure 11-2. Password and Authentication OperationsNote:Authentication and password verification may be attempted at any time and in any order. Exceedingcorresponding authentication or password attempts trial limit renders subsequent authentication or password verification attempts futile.READ ACCESSWRITE ACCESS11.5 Cryptographic Message Authentication CodesAT88SC0808CA implements a data validity check function in the standard, authentication or encryption modes of operation.In the standard mode, data validity check is done through a Modification Detection Code (MDC), in which the host may read an MDC from the device in order to verify that the data sent was received correctly.In authentication and encryption modes, the data validity check becomes more powerful since it provides a bidirectional data integrity check and data origin authentication capability in the form of a Message Authentication Codes (MAC). Only thehost/device that carried out a valid authentication is capable of computing a valid MAC. While operating in the authentication or encryption modes, the use of MAC is required. For an ingoing command, if the device calculates a MAC different from the MAC transmitted by the host, not only is the command abandoned but the security privilege is revoked. A new authentication and/or encryption activation will be required to reactivate the MAC.11.6 EncryptionThe data exchanged between the device and the host during read, write and verify password commands may be encrypted to ensure data confidentiality.The issuer may choose to require encryption for a user zone by settings made in the configuration memory. Any one of four keys may be selected for use with a user zone. In this case, activation of the encryption mode is required in order to read/write data in the zone and only encrypted data will be transmitted. Even if not required, the host may still elect to activate encryption provided the proper keys are known.11.7 Supervisor ModeEnabling this feature allows the holder of one specific password to gain full access to all eight password sets, including the ability to change passwords.11.8 Modify ForbiddenNo write access is allowed in a user zone protected with this feature at any time. The user zone must be written during device personalization prior to blowing the security fuses.11.9 Program OnlyFor a user zones protected by this feature, data can only be programmed (bits change from a “1” to a “0”), but not erased (bi ts change from a “0” to a “1”).12. Protocol SelectionThe AT88SC0808CA supports two different communication protocols.∙ Smartcard Applications:Smartcard applications use ISO 7816-B protocol in asynchronous T = 0 mode for compatibility and interoperability with industry standard smartcard readers.∙ Embedded Applications:A 2-wire serial interface provides fast and efficient connectivity with other logic devices or microcontrollers.The power-up sequence determines establishes the communication protocol for use within that power cycle. Protocol selection is allowed only during power-up.12.1 Synchronous 2-wire Serial InterfaceThe synchronous mode is the default mode after power up. This is due to the presence of an internal pull-up on RST. For embedded applications using CryptoMemory in standard plastic packages, this is the only available communication protocol.∙ Power-up V CC , RST goes high also∙ After stable V CC , SCL(CLK) and SDA(I/O) may be driven∙ Once synchronous mode has been selected, it is not possible to switch to asynchronous mode without first poweringoff the deviceFigure 12-1. Synchronous 2-wire ProtocolNote: Five clock pulses must be sent before the first command is issued.V cc I/O-SDARST CLK-SCL1234512.2 Asynchronous T = 0 ProtocolThis power-up sequence complies to ISO 7816-3 for a cold reset in smart card applications.∙ V CC goes high; RST, I/O (SDA) and CLK (SCL) are low ∙ Set I/O (SDA) in receive mode ∙ Provide a clock signal to CLK (SCL) ∙RST goes high after 400 clock cyclesThe device will respond with a 64-bit ATR code, including historical bytes to indicate the memory density within the CryptoMemory family.Once asynchronous mode has been selected, it is not possible to switch to synchronous mode without first powering off the device.Figure 12-2. Asynchronous T = 0 Protocol (Gemplus Patent)13. Initial Device ProgrammingEnabling the security features of CryptoMemory requires prior personalization. Personalization entails setting up of desired access rights by zones, passwords and key values, programming these values into the configuration memory with verification using simple write and read commands, and then blowing fuses to lock this information in place.Gaining access to the configuration memory requires successful presentation of a secure (or transport) code. The initial signature of the secure (transport) code for the AT88SC0808CA device is $22 E8 3F. This is the same as the Write 7 password. The user may elect to change the signature of the secure code anytime after successful presentation.After writing and verifying data in the configuration memory, the security fuses must be blown to lock this information in the device. For additional information on personalizing CryptoMemory, please see the application notes ProgrammingCryptoMemory for Embedded Applications and Initializing CryptoMemory for Smart Card Applications from the product page at /products/securemem .V cc I/O-SDARSTCLK-SCL14. Ordering InformationNote: 1. Formal drawings may be obtained from an Atmel sales office.2. Both the J and P module packages are used for either ISO (T=0 / 2-wire mode) or TWI (2-wire mode only).15. Package InformationOrdering Code: MJ or MJTG Ordering Code: MP or MPTGModule Size: M2Dimension*: 12.6 x 11.4 [mm] Glob Top: Round - ∅8.5 [mm] Thickness: 0.58 [mm]Pitch: 14.25mm Module Size: M2Dimension*: 12.6 x 11.4 [mm]Glob Top: Square - 8.8 x 8.8 [mm] Thickness: 0.58 [mm]Pitch: 14.25mmNote: *The module dimensions listed refer to the dimensions of the exposed metal contact area. The actual dimensions of the module after excise or punching from the carrier tape are generally 0.4mm greater in both directions(i.e., a punched M2 module will yield 13.0 x 11.8mm).15.1 Atmel AT88SC0808CA Package Marking Information15.2 Ordering Code: SH8S1 – 8-lead JEDEC SOIC15.3 Ordering Code: PU8P3 – 8-lead PDIPAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720152115.4Ordering Code: TH 8X – 8-lead TSSOPAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720152215.5Ordering Code: Y6H-T8MA2 – 8-lead Ultra Thin Mini-MapAT88SC0808CA [Summary DATASHEET]Atmel-5204IS-CryptoMem-AT88SC0808CA-Datasheet-Summary_0720152316. Revision History。

C O NF ID EN T IA LNSi8120/NSi8121/NSi8122: High ReliabilityDual-Channel Digital IsolatorsDatasheet (EN) 1.8Product OverviewThe NSi812x devices are high reliability dual-channel digital isolator. The NSi812x device is safety certified by UL1577 support several insulation withstand voltages (3.75kV rms , 5kV rms ), while providing high electromagnetic immunity and low emissions at low power consumption. The data rate of the NSi812x is up to 150Mbps, and the common-mode transient immunity (CMTI) is up to 150kV/us. The NSi812x device provides digital channel direction configuration and the default output level configuration when the input power is lost. Wide supply voltage of the NSi812x device support to connect with most digital interface directly, easy to do the level shift. High system level EMC performance enhance reliability and stability of use. AEC-Q100 (Grade 1) option is provided for all devices.Key Features• Up to 5000V rms Insulation voltage• Date rate: DC to 150Mbps• Power supply voltage: 2.5V to 5.5V • All devices are AEC-Q100 qualified • High CMTI: 150kV/us • Chip level ESD: HBM: ±6kV• High system level EMC performance:Enhanced system level ESD, EFT, Surge immunity• Default output high level or low level option • Isolation barrier life: >60 years• Low power consumption: 1.5mA/ch (1 Mbps) • Low propagation delay: <15ns • Operation temperature: -40℃~125℃ • RoHS-compliant packages:SOIC-8 narrow body SOIC-16 wide bodySafety Regulatory Approvals• UL recognition: up to 5000V rms for 1 minute per UL1577• CQC certification per GB4943.1-2011• CSA component notice 5A • DIN VDE V 0884-11:2017-01Applications• Industrial automation system • Isolated SPI, RS232, RS485• General-purpose multichannel isolation • Motor controlFunctional Block DiagramsC O NF ID EN T IA LIndex1.0 ABSOLUTE MAXIMUM RATINGS .............................................................................................................................. 3 2.0 SPECIFICATIONS ........................................................................................................................................................... 3 2.1. E LECTRICAL CHARACTERISTICS .................................................................................................................................................. 3 2.2. TYPICAL PERFORMANCE CHARACTERISTICS ........................................................................................................................... 7 2.3. P ARAMETER M EASUREMENT I NFORMATION . (8)3.0 HIGH VOLTAGE FEATURE DESCRIPTION (9)3.1. INSULATION AND SAFETY RELATED SPECIFICATIONS (9)3.2. DIN VDE V 0884-11（VDE V 0884-11）:2017-01 INSULATION CHARATERISTICS ....................................................................... 9 3.3. R EGULATORY INFORMATION ................................................................................................................................................... 11 4.0 FUNCTION DESCRIPTION ..........................................................................................................................................11 5.0 APPLICATION NOTE ................................................................................................................................................... 12 5.1. PCB L AYOUT ...................................................................................................................................................................... 12 5.2. H IGH SPEED PERFORMANCE ................................................................................................................................................... 12 5.3. T YPICAL S UPPLY C URRENT E QUATIONS ..................................................................................................................................... 13 6.0 PACKAGE INFORMATION ......................................................................................................................................... 13 7.0 TAPE AND REEL INFORMATION ............................................................................................................................. 17 8.0 ORDER INFORMATION .............................................................................................................................................. 20 9.0 REVISION HISTORY . (21)C O NF ID EN T IA L1.0 ABSOLUTE MAXIMUM RATINGSPower Supply Voltage VDD1, VDD2 -0.5 6.5 V Maximum Input Voltage VINA, VINB -0.4 VDD+0.41 V Maximum Output Voltage V OUTA , V OUTB -0.4 VDD+0.41 VMaximum Input/Output Pulse VoltageVINA, VINB, V OUTA , V OUTB-0.8VDD+0.8VPulse width should be less than 100ns, and the duty cycle should be less than 10%Common-Mode Transients CMTI ±150 kV/us Output currentIo -15 15mAMaximum Surge Isolation VoltageV IOSM5.3kVOperating Temperature Topr -40125 ℃Storage Temperature Tstg -40150℃Electrostatic dischargeHBM±6000VCDM±2000V1 The maximum voltage must not exceed 6.5V.2.0 SPECIFICATIONS2.1. ELECTRICAL CHARACTERISTICS(VDD1=2.5V~5.5V, VDD2=2.5V~5.5V, Ta=-40℃ to 125℃. Unless otherwise noted, Typical values are at VDD1 = 5V, VDD2 = 5V, Ta =25℃)Power on ResetVDD POR2.2 V POR threshold as during power-upVDD HYS 0.1 V POR threshold Hysteresis Input ThresholdV IT1.6 V Input Threshold at rising edge V IT_HYS 0.4 V Input Threshold Hysteresis High Level Input Voltage V IH 2 V Low Level Input Voltage V IL 0.8 V High Level Output Voltage V OH VDD-0.3 V I OH ≤ 4mA Low Level Output VoltageV OL0.3VI OL ≤ 4mAC O NF ID EN T IA LOutput Impedance R out 50 ohm Input Pull high or low CurrentI pull 8 15 uA Start Up Time after POR trbs 40 usec Common Mode Transient ImmunityCMTI±100±150kV/us(VDD1=5V± 10%, VDD2=5V± 10%, Ta=-40℃ to 125℃. Unless otherwise noted, Typical values are at VDD1 = 5V, VDD2 = 5V, Ta = 25℃)Supply currentNSi8120 I DD1(Q0) 0.58 0.87 mAAll Input 0V for NSi8120x0 Or All Input at supply for NSi8120x1 I DD2(Q0) 1.18 1.77 mA I DD1(Q1) 2.92 4.38 mA All Input at supply for NSi8120x0 Or All Input 0V for NSi8120x1I DD2(Q1) 1.241.86mAI DD1(1M) 1.71 2.56 mA All Input with 1Mbps, C L =15pFI DD2(1M)1.382.07mAI DD1(10M) 1.78 2.67 mA All Input with 10Mbps, C L =15pF I DD2(10M)3.24.8mA I DD1(100M)2.103.15 mA All Input with 100Mbps, C L =15pFI DD2(100M)21.031.5mANSi8121/ NSi8122 I DD1(Q0) 1.031.55 mA All Input 0V for NSi812xx0 Or All Input at supply for NSi812xx1 I DD2(Q0) 1.00 1.5 mA I DD1(Q1)2.203.3 mA All Input at supply for NSi812xx0Or All Input 0V for NSi812xx1 I DD2(Q1)2.133.2 mA I DD1(1M) 1.72 2.58 mA All Input with 1Mbps, C L =15pFI DD2(1M) 1.68 2.52 mA I DD1(10M) 2.62 3.93 mA All Input with 10Mbps, C L =15pFI DD2(10M) 2.71 4.06 mA I DD1(100M) 11.01 16.5 mA All Input with 100Mbps, C L = 15pF I DD2(100M)12.8 19.2 mA Data RateDR 0 150 MbpsC O NF ID EN T IA LPropagation Delayt PLH 5 8.20 15 ns See Figure 2.7 , C L = 15pF t PHL 5 10.56 15 ns See Figure 2.7, C L = 15pF Pulse Width Distortion |t PHL – t PLH | PWD5.0nsSee Figure 2.7 , C L = 15pFRising Time t r 5.0 ns See Figure 2.7 , C L = 15pF Falling Timet f 5.0 ns See Figure 2.7 , C L = 15pFPeak Eye Diagram Jitter t JIT (PK) 350 ps Channel-to-Channel Delay Skewt SK (c2c) 2.5 nsPart-to-Part Delay Skewt SK (p2p)5.0ns(VDD1=3.3V± 10%, VDD2=3.3V± 10%, Ta=-40℃ to 125℃. Unless otherwise noted, Typical values are at VDD1 = 3.3V, VDD2 = 3.3V, Ta =25℃)Supply currentNSi8120 I DD1(Q0) 0.550.83mA All Input 0V for NSi8120x0 Or All Input at supply for NSi8120x1 I DD2(Q0) 1.12 1.68 mA I DD1(Q1) 2.87 4.3 mA All Input at supply for NSi8120x0 Or All Input 0V for NSi8120x1 I DD2(Q1)1.18 1.77mA I DD1(1M)1.72.55mA All Input with 1Mbps, C L = 15pFI DD2(1M)1.271.91 mA I DD1(10M) 1.732.6 mA All Input with 10Mbps, C L = 15pF I DD2(10M)2.413.6 mA I DD1(100M) 2.05 3.08 mA All Input with 100Mbps, C L = 15pF I DD2(100M)14.0521.08mANSi8121/ NSi8122 I DD1(Q0) 0.98 1.47 mA All Input 0V for NSi812xx0 Or All Input at supply for NSi812xx1 I DD2(Q0) 0.95 1.43 mA I DD1(Q1) 2.14 3.21 mA All Input at supply for NSi812xx0 Or All Input 0V for NSi812xx1 I DD2(Q1) 2.08 3.12 mA I DD1(1M) 1.63 2.45 mA All Input with 1Mbps, C L = 15pFI DD2(1M) 1.59 2.39 mA I (10M)2.223.33mAAll Input with 10Mbps,C O NF I D EN T IA LI DD2(10M) 2.25 3.38 mA C L = 15pFI DD1(100M) 7.57 11.36 mA All Input with 100Mbps, C L = 15pF I DD2(100M)8.5 12.75 mA Data RateDR 0 150 Mbps Minimum Pulse Width PW 5.0 nsPropagation Delayt PLH 5 9.20 15 ns See Figure 2.7 , C L = 15pF t PHL5 10.40 15 ns See Figure 2.7, C L = 15pF Pulse Width Distortion |t PHL – t PLH | PWD5.0nsSee Figure 2.7 , C L = 15pFRising Time t r 5.0 ns See Figure 2.7 , C L = 15pF Falling Timet f5.0 nsSee Figure 2.7 , C L = 15pFPeak Eye Diagram Jitter t JIT (PK) 350psChannel-to-Channel Delay Skewt SK (c2c)2.5nsPart-to-Part Delay Skew t SK (p2p)5.0ns(VDD1=2.5V± 10%, VDD2=2.5V± 10%, Ta=-40℃ to 125℃. Unless otherwise noted, Typical values are at VDD1 = 2.5V, VDD2 = 2.5V, Ta =25℃)Supply currentNSi8120I DD1(Q0) 0.53 0.8 mA All Input 0V for NSi8120x0 Or All Input at supply for NSi8120x1 I DD2(Q0) 1.11.65 mA I DD1(Q1)2.85 4.28 mA All Input at supply for NSi8120x0 Or All Input 0V for NSi8120x1 I DD2(Q1)1.15 1.73 mA I DD1(1M) 1.632.45 mA All Input with 1Mbps, C L = 15pFI DD2(1M) 1.21 1.82 mA I DD1(10M) 1.68 2.52 mA All Input with 10Mbps, C L = 15pFI DD2(10M) 2.05 3.08 mA I DD1(100M) 1.95 2.93 mA All Input with 100Mbps, C L = 15pFI DD2(100M)10.415.6mANSi8121/ NSi8122I DD1(Q0) 0.96 1.44 mA All Input 0V for NSi812xx0 Or All Input at supply for NSi812xx1I (Q0)0.931.395mAF ID EN T IA LI DD1(Q1) 2.11 3.165 mA All Input at supply for NSi812xx0Or All Input 0V for NSi812xx1 I DD2(Q1) 2.05 3.075 mA I DD1(1M) 1.58 2.37 mA All Input with 1Mbps, C L = 15pFI DD2(1M) 1.54 2.31 mA I DD1(10M) 2.02 3.03 mA All Input with 10Mbps, C L = 15pFI DD2(10M) 2.04 3.06 mA I DD1(100M) 6.03 9.045 mA All Input with 100Mbps, C L = 15pF I DD2(100M)6 9 mAData RateDR 0 150 Mbps Minimum Pulse Width PW 5.0 nsPropagation Delayt PLH 5 10 15 nsSee Figure 2.7 , C L = 15pF t PHL5 10 15nsSee Figure 2.7, C L = 15pFPulse Width Distortion |t PHL – t PLH | PWD5.0nsSee Figure 2.7 , C L = 15pFRising Time t r5.0ns See Figure 2.7 , C L = 15pF Falling Timet f5.0 ns See Figure 2.7 , C L = 15pFPeak Eye Diagram Jitter t JIT (PK)350ps Channel-to-Channel Delay Skewt SK (c2c)2.5ns Part-to-Part Delay Skew t SK (p2p)5.0ns2.2. TYPICAL PERFORMANCE CHARACTERISTICSFigure 2.1 NSi8120 VDD1 Supply Current vs Data Rate Figure 2.2 NSi8120 VDD2 Supply Current vs Data RateC OE2.3. PARAMETER MEASUREMENT INFORMATIONC LFigure 2.7 Switching Characteristics Test Circuit and WaveformFigure 2.8 Common-Mode Transient Immunity Test CircuitC O NF ID EN T IA L3.0 HIGH VOLTAGE FEATURE DESCRIPTION3.1. INSULATION AND SAFETY RELATED SPECIFICATIONSMinimum External Air Gap (Clearance)L(I01) 4.0 8.0 mm Shortest terminal-to-terminal distance through air Minimum External Tracking (Creepage)L(I02)4.08.0mmShortest terminal-to-terminal distance across the package surfaceMinimum internal gap DTI 20 um Distance through insulationTrackingResistance(Comparative Tracking Index) CTI>400VDIN EN 60112 (VDE 0303-11); IEC 60112Material GroupⅡ3.2. DIN VDE V 0884-11（VDE V 0884-11）:2017-01 INSULATION CHARATERISTICSSOIC-8 SOIC-16 Installation Classification per DIN VDE 0110For Rated Mains Voltage ≤ 150V rms Ⅰto Ⅳ Ⅰto Ⅳ For Rated Mains Voltage ≤ 300V rms Ⅰto Ⅲ Ⅰto Ⅳ For Rated Mains Voltage ≤ 400V rms Ⅰto Ⅲ Ⅰto Ⅳ Climatic Classification10/105/2110/105/21 Pollution Degree per DIN VDE 0110, Table 122Maximum repetitive isolation voltageVIORM 565 849 Vpeak Input to Output Test Voltage, Method B1V IORM × 1.5 = V pd (m) , 100%production test, t ini = t m = 1 sec, partial discharge < 5 pCV pd (m)8471273VpeakInput to Output Test Voltage, Method AAfter Environmental Tests Subgroup 1V IORM × 1.2= V pd (m) , t ini = 60 sec, t m = 10 sec, partial V pd (m)6781018VpeakC O N T IA LAfter Input and /or Safety Test Subgroup 2 and Subgroup 3 V IORM × 1.2= V pd (m) , t ini = 60 sec, t m = 10 sec, partialdischarge < 5 pC V pd (m)6781018VpeakMaximum transient isolation voltage t = 60 sec VIOTM 5300 7000 Vpeak Maximum Surge Isolation VoltageTest method per IEC60065,1.2/50uswaveform, VTEST=VIOSM×1.3VIOSM53845384VpeakIsolation resistance VIO =500V RIO >109 >109 Ω Isolation capacitance f = 1MHzCIO 0.6 0.6pFInput capacitanceCI22pF Total Power Dissipation at 25℃Ps1499 mW Safety input, output, or supply currentθJA = 140 °C/W, V I = 5.5 V, T J = 150 °C, T A = 25 °C Is160mAθJA = 84 °C/W, V I = 5.5 V, T J = 150 °C, T A = 25 °C237 mA Case TemperatureTs150150℃Figure 3.2 NSi8120W/NSi8121W/NSi8122W Thermal Derating Curve, Dependence of Safety Limiting Values with Case Temperature per DIN VDE V 0884-11C O NF ID EN T IA L3.3. REGULATORY INFORMATIONThe NSi8120N/NSi8121N/NSi8122N are approved by the organizations listed in table.UL 1577 Component Recognition Program 1Approved under CSA ComponentAcceptance Notice 5ADIN VDE V 0884-11:2017-012Certified by CQC11-471543-2012 GB4943.1-2011Single Protection, 3750V rms Isolation voltageSingle Protection, 3750V rms IsolationvoltageBasic Insulation 565Vpeak, V IOSM =5384VpeakBasic insulation at 400V rms (565Vpeak)File (E500602)File (E500602)File (5024579-4880-0001)File (pending)1 In accordance with UL 1577, each NSi8120N/NSi8121N/NSi8122N is proof tested by applying an insulation test voltage ≥ 4500 Vrms for 1 sec.2 In accordance with DIN VDE V 0884-11, each NSi8120N/NSi8121N/NSi8122N is proof tested by applying an insulation test voltage ≥ 847 V peak for 1 sec(partial discharge detection limit = 5 pC). The * marking branded on the component designates DIN VDE V 0884-11 approval.The NSi8120W/NSi8121W/NSi8122W are approved by the organizations listed in table.UL 1577 Component Recognition Program 1Approved under CSAComponent Acceptance Notice5ADIN VDE V 0884-11(VDE V 0884-11):2017-012 Certified by CQC11-471543-2012 GB4943.1-2011Single Protection, 5000V rms Isolation voltageSingle Protection, 5000V rmsIsolation voltageBasic Insulation 849Vpeak, V IOSM =5384Vpeak Basic insulation at 800V rms (1131Vpeak) Reinforced insulation at 400V rms (565Vpeak)File (E500602)File (E500602)File (5024579-4880-0001)File (pending)1 In accordance with UL 1577, each NSi8120W/NSi8121W/NSi8122W is proof tested by applying an insulation test voltage ≥ 6000 V rms for 1 sec.2 In accordance with DIN VDE V 0884-11, each NSi8120W/NSi8121W/NSi8122W is proof tested by applying an insulation test voltage ≥ 1273 V peak for 1 sec(partial discharge detection limit = 5 pC). The * marking branded on the component designates DIN VDE V 0884-11 approval.4.0 FUNCTION DESCRIPTIONThe NSi812x is a Dual-channel digital isolator based on a capacitive isolation barrier technique. The digital signal is modulated with RF carrier generated by the internal oscillator at the Transmitter side. Then it is transferred through the capacitive isolation barrier and demodulated at the Receiver side.The NSi812x devices are high reliability dual-channel digital isolator with AEC-Q100 qualified. The NSi812x device is safety certified by UL1577 support several insulation withstand voltages (3.75kV rms , 5kV rms ), while providing high electromagnetic immunity and low emissions at low power consumption. The data rate of the NSi812x is up to 150Mbps, and the common-mode transient immunity (CMTI) is up to 150kV/us. The NSi812x device provides digital channel direction configuration and the default output level configuration when the input power is lost. Wide supply voltage of the NSi812x device support to connect with most digital interface directly, easy to do the level shift. High system level EMC performance enhance reliability and stability of use.The NSi812x has a default output status when VDDIN is unready and VDDOUT is ready as shown in Table 4.1, which helps for diagnosis when power is missing at the transmitter side. The output B follows the same status with the input A within 1us after powering up.C O NF ID EN T IA LCopyright © 2019, NOVOSENSEPage 12 Table 4.1 Output status vs. power statusH Ready Ready H Normal operation.L Ready Ready L XUnreadyReadyL HThe output follows the same status with the input within 60us after input side VDD1 is powered on.X Ready Unready XThe output follows the same status with the input within 60us after output side VDD2 is powered on.5.0 APPLICATION NOTE5.1. PCB LAYOUTThe NSi812x requires a 0.1 µF bypass capacitor between VDD1 and GND1, VDD2 and GND2. The capacitor should beplaced as close as possible to the package. Figure 5.1 to Figure 5.4 show the recommended PCB layout, make sure the space under the chip should keep free from planes, traces, pads and via. To enhance the robustness of a design, the user may also include resistors (50–300 Ω ) in series with the inputs and outputs if the system is excessively noisy. The series resistors also improve the system reliability such as latch-up immunity.The typical output impedance of an isolator driver channel is approximately 50 Ω, ±40%. When driving loads where transmission line effects will be a factor, output pins should be appropriately terminated with controlled impedance PCB traces.Figure5.1 Recommended PCB Layout — Top Layer Figure5.2 Recommended PCB Layout — Bottom LayerFigure5.3 Recommended PCB Layout — Top Layer Figure5.4 Recommended PCB Layout — Bottom Layer5.2. HIGH SPEED PERFORMANCEFigure 5.5 shows the eye diagram of NSi812x at 200Mbps data rate output. The result shows a typical measurement on the NSi812x with 350ps p-p jitter.C O NF ID EN T IA LFigure5.5 NSi812x Eye Diagram5.3. TYPICAL SUPPLY CURRENT EQUATIONSThe typical supply current of NSi812x can be calculated using below equations. I DD1 and I DD2 are typical supply currents measured in mA, f is data rate measured in Mbps, C L is the capacitive load measured in pFNSi8120:I DD1 = 0.19 *a1+1.45*b1+0.82*c1. I DD2 = 1.36+ VDD1*f* C L *c1*10-9When a1 is the channel number of low input at side 1, b1 is the channel number of high input at side 1, c1 is the channel number of switch signal input at side 1.NSi8121/ NSi8122:I DD1 = 0.87 +1.26*b1+0.63*c1+ VDD1*f* C L *c2*10-9I DD2 = 0.87 +1.26*b2+0.63*c2+ VDD1*f* C L *c1*10-9When b1 is the channel number of high input at side 1, c1 is the channel number of switch signal input at side 1, b2 is the channel number of high input at side 2, c2 is the channel number of switch signal input at side 2.6.0 PACKAGE INFORMATIONVDD GND 22VDD INA GND 2VDD 2Figure 6.1 NSi8120N Package Figure 6.2 NSi8121N PackageC O NF ID EN T IA LVDD INBGND 22Figure 6.3 NSi8122N PackageFigure 6.4 SOIC8 Package Shape and Dimension in millimeters (inches)Table6.1 NSi8120N/ NSi8121N/ NSi8122N Pin Configuration and DescriptionNSi8121N PIN NO.NSi8122N PIN NO.SYMBOL FUNCTION1 1 1 VDD1 Power Supply for Isolator Side 12 7 2 INA Logic Input A3 3 6 INB Logic Input B4 4 4 GND1 Ground 1, the ground reference for Isolator Side 15 5 5 GND2 Ground 2, the ground reference for Isolator Side 26 6 3 OUTB Logic Output B7 2 7 OUTA Logic Output A888VDD2Power Supply for Isolator Side 2C O NFVDD GND GND 2VDD 2GND 2GND NC NCNC VDD GND GND 2VDD 22GND NC NC NCFigure 6.5 NSi8120W Package Figure 6.6 NSi8121W PackageVDD INB GND GND 2VDD 2GND 2GND NC NC NCFigure 6.7 NSi8122W PackageFigure 6.8 WB SOIC16 Package Shape and Dimension in millimeters and (inches)C O NF ID EN T IA LTable 6.2 NSi8120W/ NSi8121W/ NSi8122W Pin Configuration and Description1 1 1 GND1 Ground 1, the ground reference for Isolator Side 12 2 2 NC No Connection.3 3 3 VDD1 Power Supply for Isolator Side 14 13 4 INA Logic Input A5 5 12 INB Logic Input B6 6 6 NC No Connection.7 7 7 GND1 Ground 1, the ground reference for Isolator Side 18 8 8 NC No Connection. 9 9 9 GND2 Ground 2, the ground reference for Isolator Side 210 10 10 NC No Connection. 11 11 11 NC No Connection. 12 12 5OUTB Logic Output A 13 4 13OUTALogic Output B 14 14 14 VDD2 Power Supply for Isolator Side 215 15 15 NC No Connection.161616GND2Ground 2, the ground reference for Isolator Side 27.0TAPE AND REEL INFORMATIONLAITNEDIFNOCC O NF ID EN T IA LFigure 7.1 Tape and Reel Information of SOIC8LAITNEDIFNOCFigure 7.2 Tape and Reel Information of WB SOIC16NF ID EN T IA L8.0 ORDER INFORMATIONNSi8120N0 3.75 2 0 150 Low -40 to 125℃ NO SOIC8 NSi8120N1 3.75 2 0 150 High -40 to 125℃ NO SOIC8 NSi8121N0 3.75 1 1 150 Low -40 to 125℃ NO SOIC8 NSi8121N1 3.75 1 1 150 High -40 to 125℃ NO SOIC8 NSi8122N0 3.75 1 1 150 Low -40 to 125℃ NO SOIC8 NSi8122N1 3.75 1 1 150 High -40 to 125℃ NO SOIC8 NSi8120W0 5 2 0 150 Low -40 to 125℃ NO WB SOIC16 NSi8120W1 5 2 0 150 High -40 to 125℃ NO WB SOIC16 NSi8121W0 5 1 1 150 Low -40 to 125℃ NO WB SOIC16 NSi8121W1 5 1 1 150 High -40 to 125℃ NO WB SOIC16 NSi8122W0 5 1 1 150 Low -40 to 125℃ NO WB SOIC16 NSi8122W1 5 1 1 150 High -40 to 125℃ NO WB SOIC16 NSi8120N0Q 3.75 2 0 150 Low -40 to 125℃ YES SOIC8 NSi8120N1Q 3.75 2 0 150 High -40 to 125℃ YES SOIC8 NSi8121N0Q 3.75 1 1 150 Low -40 to 125℃ YES SOIC8 NSi8121N1Q 3.75 1 1 150 High -40 to 125℃ YES SOIC8 NSi8122N0Q 3.75 1 1 150 Low -40 to 125℃ YES SOIC8 NSi8122N1Q 3.75 1 1 150 High -40 to 125℃ YES SOIC8 NSi8120W0Q 5 2 0 150 Low -40 to 125℃ YES WB SOIC16 NSi8120W1Q 5 2 0 150 High -40 to 125℃ YES WB SOIC16 NSi8121W0Q 5 1 1 150 Low -40 to 125℃ YES WB SOIC16 NSi8121W1Q 5 1 1 150 High -40 to 125℃ YES WB SOIC16 NSi8122W0Q 5 1 1 150 Low -40 to 125℃ YES WB SOIC16 NSi8122W1Q 5 1 1 150 High -40 to 125℃YES WB SOIC16 NOTE: All packages are RoHS-compliant with peak reflow temperatures of 260 °C according to the JEDEC industry standard classifications and peak solder temperatures. All devices are AEC-Q100 qualified.Part Number Rule:NSi(81)(2)(1)(N)(1)(Q)C O NF ID EN T IA LNSi8120/NSi8121/NSi81229.0 REVISION HISTORY1.0 Original2017/11/15 1.1 Change to Ordering information2018/3/26 1.2 Add maximum operation current specification. 2018/6/20 1.3 Change block diagram 2018/7/28 1.4 Correct Table 6.2 Pin No.2018/8/20 1.5 Add specification “Input Pull high or low Current” 2018/9/10 1.6 Add “Maximum Input/Output Pulse Voltage” 2018/10/91.7 Change to Ordering information 2018/12/20 1.8 Change Certification Information2019/06/17。

中央控制设备型号：BMS-IFBN1281U-E安装手册BN 接口For commercial usehttps://www.toshiba-carrier.co.jp/global/manual/bms-ifbn1281u.htm[ългарски] Изтегляне на Ръководство за монтаж, Лицензионно споразумение и Лицензна информация / [Česky] Stažení Montážní příručky, Licenční smlouvy a Licenčních informací / [Dansk] Download installationsvejledning, licensaftale og licensinformation / [Deutsch] Installationshandbuch, Lizenzvereinbarung und Lizenzinformation herunterladen / [Ελληνικά] Λήψη εγγράφων «Εγχειρίδιο εγκατάστασης», «Άδεια χρήσης» και «Πληροφορίες για την άδεια» / [English]Installation Manual, License Agreement and License Information Download / [Español] Descarga del Manual de instalación, del Contrato de licencia y de la Información de licencia / [Eesti] Paigaldusjuhendi, litsentsi kokkuleppe ja litsentsiteabe allalaadimine / [Suomi] Asennusohjeiden, lisenssisopimuksen ja lisenssitietojen lataaminen / [Français] Téléchargement du manuel d'installation, du contrat de licence et desinformations sur la licence / [Hrvatski] Preuzimanje Priručnika za instalaciju, Ugovora o licenci i Informacija o licenci / [Magyar] Telepítési kézikönyv, Licencszerződés és Licencinformáció letöltése / [Italiano] Download del Manuale di installazione, del Contratto di licenza e delle Informazioni sulla licenza / [Latviešu] Uzstādīšanas rokasgrāmatas, licences līguma un licences informācijas lejupielāde / [Norsk]Nedlasting av installasjonsveiledning, lisensavtale og lisensinformasjon / [Nederlands] Installatiehandleiding, Licentieovereenkomst en Licentie-informatie downloaden / [Polski] Pobieranie Instrukcji instalacyjnej, Umowy licencyjnej i Informacji o licencji / [Português] Download do Manual de instalação, Contrato de Licença e dasInformações sobre a licença / [Română] Descărcarea Manual de instalare, Contract de licență și Informații de licență / [Русский] Скачать Руководство по установке, Лицензионное соглашение и Информацию о лицензии / [Slovensky] Stiahnutie Montážnej príručky, Licenčnej zmluvy a Informácií o licencii / [Slovenščina] Prenos navodil za montažo, licenčne pogodbe in licenčnih informacij / [Svenska] Nedladdning av Installationshandbok, Licensavtal och Licensinformation / [Türkçe] Kurulumkılavuzu, Lisans Sözleşmesi ve Lisans Bilgileri İndirme / [中文] 安装手册，许可证协议和许可证信息下载目录安全注意事项 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2简介. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1安装. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52电源和信号线连接 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73设置. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 3-1.开关设置 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 143-2.LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 4出厂默认设置. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155试运行 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 5-1.BACnet 通信设置 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165-2.在室内机上设置设备数据. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175-3.设置过程中发生问题的原因 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 6关闭 BN 接口. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 181-ZH2-ZH安全注意事项•安装前请仔细阅读下述 “安全注意事项”，并进行正确安装。

NIPX128T系统说明书南京国之鑫科技有限公司建华科技南京研发中心2006.12NIPX-128T 系统说明书目录1. 系统简介 (1)2. 系统架构 (1)3. 系统特点 (3)4. 系统功能 (5)5. 最新的特别功能 (8)5.1来电智能转接 (8)5.2来电未接短信通知 (9)5.3电话助理 (9)6. 自动总机功能 (9)7. 人工中继台(简称总机台)功能 (10)8. 一般话机功能 (12)9. 数字按键话机功能 (14)10. 欧洲制式数字无线电话系统-DECT (16)11. 网络语音服务-VOIP (17)12. 电脑电话整合功能-CTI (18)13. 移动通讯最佳路由节费功能-GSM (21)14. 维护管理与告警 (23)15. 计费功能 (24)16. 特性 (25)17. 功能一览表 (26)18. 系统卡片配置图 (30)19. 专有名词中英对照表 (31)1. 系统简介NIPX-Series PABX为公司新一代整合式全数字网络无线交换机系统，它提供了多种接口，可直接与模拟话机、数字按键话机、数字式多通道录音系统等各种终端设备连接、并具备来电显示（Caller ID）、ISDN BRI/PRI、DECT无线电通讯及CTI电脑电话整合等服务机能；此外，并可结合消息网络提供VoIP之服务。

系统亦具备自动总机（DISA）及语音信箱（VM）等人性化的加值功能。

NIPX可连接包括公众交换电话网络（PSTN）、整体数字网络（ISDN）及因特网（Internet）等，并结合无线通讯，以提供最完整的语音通信服务；对使用者而言，可以轻松拥有一套完善、经济且功能强大的电话交换系统。

2. 系统架构1.功能示意图C.O.：Central Office(局线中继线接口)BRI：Basic Rate Interface(基本速率接口)PRI：Primary Rate Interface(原级速率接口)VoIP：Voice over Internet Protocol(网络语音技术)LD：Loop Dial(环路直拨中继接口卡)EM：(载微波中继接口卡)KLC：Key-telephone Line Card(数字按键电话接口卡)ALC：Analog Line Card(一般话机接口卡)DIC：DECT Interface Card(DECT基地台接口卡)Ethernet：(以太网络接口)CTI：Computer Telephone Integration(电脑电话整合应用，CSTA-Computer Supported Telephony Application)DTI：Data Terminal Interface(数据终端接口)PFT：Power Fail Transfer(停电转接接口)2.应用网络图NIPX提供了符合ECMA(European Computer Manufacturers Association)制订之CTI标准开放式接口(CSTA, Computer Supported Telecommunications Applications)，可结合其他通讯系统如IVR、UMS、CRM等，形成一个完整的通信服务网络。

特点•高性能，低功耗的A VR ® 8位微控制器•先进的RISC结构- 133 - 最强大的单时钟周期指令执行- 32个8位通用工作寄存器+外设控制寄存器- 全静态工作- 高达16 MIPS的吞吐量为16兆赫- 片2周期乘法器•非挥发性程序和数据存储器- 在系统内32K/64K/128K字节可重编程闪存（A T90CAN32/64/128）•耐久性：10,000写入/擦除周期- 可选启动代码段与独立锁定位•可选启动大小：1K字节，2K字节，4K字节或8K 字节•在系统编程的片上引导程序（CAN总线，UART 的，...）•真正的了解，同时，写操作- 1K/2K/4K字节的EEPROM（耐力：100,000写入/擦除周期）（A T90CAN32/64/128）- 2K/4K/4K字节内部SRAM（AT90CAN32/64/128）- 高达64K字节可选外部存储空间- 编程软件安全锁•JTAG接口（IEEE标准。

1149.1兼容）接口- 边界扫描功能根据JTAG标准- 编程闪存（硬件的ISP）的EEPROM，熔丝位和锁定- 广泛的片上调试支持•CAN控制器的电流及2.0B - 的ISO 16845认证（1）- 15个具有独立完整的邮件对象标识标签和面具- 发送，接收，自动回复和帧缓冲区接收模式- 1Mbits / s的8 MHz的最大传输速率- 冲压时，公车及听力模式（间谍或自动波特）•外设特点- 可编程看门狗定时器，带有片上振荡器- 8位同步Timer/Counter-0•10位预分频器•外部事件计数器•输出比较或8位PWM输出- 8位异步Timer/Counter-2•10位预分频器•外部事件计数器•输出比较或8位PWM输出•32kHz振荡器实时时钟运行- 双通道16位同步Timer/Counters-1＆3 •10位预分频器•输入捕获噪声抵消•外部事件计数器•3输出比较或16位PWM输出•输出比较调制- 8通道，10位SAR ADC•8个单端通道•7个差分通道•2个差分通道，再加上1倍，10倍，或200x中可编程增益- 片内模拟比较器- 字节为导向的两线串行接口- 双可编程串行的USART- 主/从SPI串行接口•编程闪存（硬件的ISP）•特殊的处理器特点- 上电复位和可编程欠压检测- 内部RC振荡器校准- 8个外部中断源- 5睡眠模式：空闲，ADC噪声降低，电力保存，掉电和待机- 软件可选的时钟频率- 全球拉禁用•I / O和软件包- 53可编程I / O口线- 64引脚TQFP和64引脚QFN封装•工作电压：2.7 - 5.5V的•工作温度：工业（-40 °C至+85℃）•最大工作频率：在2.7V 8兆赫，16兆赫在4.5V 注：1。

CA-NC41TRF◆∙百万像素传感器，高分辨率，高画质◆∙标准H.264编码算法，网络带宽占用低，视频观看流畅清晰◆∙智能传输技术，带宽自适应，码流动态调节，音视频同步，抖动缓冲◆∙支持动态域名解析，适合远程网络连接◆∙支持固件远程升级◆∙支持多用户远程访问，多设备管理◆∙支持ONVIF国际标准协议◆∙支持报警联动，支持通过E-mail，FTP，短信通知等方式上传报警信息支持P2P功能摄像机型号CA-NC41TRF图像传感器1/3"progressive Scan CMOS 有效像素720P/D1/CIF最低照度彩色0.01Lux@(F1.2 AGC ON)黑白0Lux(IR ON)编码视频编码H.264 High Profile编码图像分辨率主码流：720P,1-30帧/秒；次码流：D1/CIF, 1-30帧/秒；视频码率32kbps~8Mbps连续可调，支持CBR/VBR 字符叠加支持通道名、日期时间叠加，位置可调接口镜头标配2.8镜头镜头类型M12网络接口一个RJ45接口，10/100M网络自适应数据传输机存储数据存储支持视频、图片存储存储机制手动存储、自动存储（定时、循环、报警等）报警传输E-mail、短信通知、浏览器、客户端网络协议TCP/IP、UDP、RTP、RTSP、RTCP、HTTP、DDNS、DHCP、NTP、PPPOE、SMTP等接入协议支持ONVIF客户端浏览支持IE6.0及以上版本，最多8用户并发访问手机浏览支持Android/iOS系统智能手机访问其他供电电源DC12V,1.5A 功率小于2.5W 尺寸76mm×60mmCA-IPS201R型号CA-IPS201R图像传感器1/3" 200万像素CMOS有效像素1920(H)x1080(V)最低照度基本型：彩色0.01Lux(F1.2AGC ON)，黑白0.005Lux(F1.2AGC ON) -ICR：彩色0.01Lux(F1.2AGC ON)，黑白0.001Lux(F1.2AGC ON)镜头接口C/CS（镜头可选）视频压缩格式H.264/MPEG4/MJPEG可选双码流支持视频码率32Kbps~12Mbps码率可调视频分辨率1080P//D1/CIF视频帧率30FPS 1920(H)x1080(V)音频编码G.711网络协议TCP/IP,HTTP,RTSP,RTP,UDP,RTCP,SMTP,FTP,DHCP,NTP,DNS,DDNS,PPPOE,UPNP RS485接口1路，支持透明通道连接，支持多种云台协议报警接口2路输入，1路输出（开关量）音频输入1路，3.5mm Jack接口，线输入；内置麦克风输入音频输出1路，3.5mm Jack接口，线输出红外距离100-150M红外灯10-12颗大功率红外灯内置镜头20倍光学变倍，12倍数字放大，f=4.7-94mm旋转速度水平控制速度0.1°-240°/秒，垂直控制速度0.1°-120°/秒供电/功耗电源适配器供电模式AC24V/5A工作温度-25℃~60℃CA-IPS200R型号CA-IPS200R图像传感器1/3" 130万像素CMOS有效像素1280(H)x960(V)最低照度基本型：彩色0.01Lux(F1.2AGC ON)，黑白0.005Lux(F1.2AGC ON) -ICR：彩色0.01Lux(F1.2AGC ON)，黑白0.001Lux(F1.2AGC ON)镜头接口C/CS（镜头可选）视频压缩格式H.264/MPEG4/MJPEG可选双码流支持视频码率32Kbps~12Mbps码率可调视频分辨率960P/720P//D1/CIF视频帧率30FPS 1280(H)x960(V)音频编码G.711网络协议TCP/IP,HTTP,RTSP,RTP,UDP,RTCP,SMTP,FTP,DHCP,NTP,DNS,DDNS,PPPOE,UPNP RS485接口1路，支持透明通道连接，支持多种云台协议报警接口2路输入，1路输出（开关量）音频输入1路，3.5mm Jack接口，线输入；内置麦克风输入音频输出1路，3.5mm Jack接口，线输出红外距离100-150M红外灯10-12颗大功率红外灯内置镜头18倍光学，4.7-84.6mm旋转速度水平控制速度0.1°-240°/秒，垂直控制速度0.1°-120°/秒供电/功耗电源适配器供电模式AC24V/5A工作温度-25℃~60℃CA-NC42HR5采用高性能100万像素逐行扫描CMOS传感器，捕捉运动图像无锯齿最高像素可达1.0M，最高分辨率可达1280X720图像优越的低照性能，最低照度可达0.0.1Lux采用先进的3D动态智能降噪功能领先业界编码算法，提供广播级图像质量，支持H.264视频编码，双码流、多种分辨率适应更多监控场景，高压缩比，高视频质量高信噪比，图像画面清晰、干净通透支持AC24V/DC12V/PoE供电支持4个区域隐私遮挡设置支持OSD反色显示支持运动侦测、遮挡侦测及报警录像、图片抓拍内嵌Web Server，支持IE浏览视频、参数配置、升级、用户管理权限红外发射距离50-60M型号CA-NC42HR5图像传感器1/4″ Progressive Scan 1.0M CMOS有效像素1280（H）X720（V）最低照度彩色0.1 Lux /(F1.2 AGC ON) 黑白0.001Lux / (F1.2 AGC ON)3A控制自动控制白平衡AWB/自动增益AGC/自动曝光AE镜头4-16mm固定光圈镜头可选动态范围不支持视频压缩格式H.264 Main Profile编码双码流支持视频码率32Kbps~16Mbps连续可调，支持CBR/VBR视频分辨率720P/D1/CIF视频帧率30FPS 1280(H)x 720(V)音频编码无网络协议TCP/IP,HTTP,RTSP,RTP,UDP,RTCP,SMTP,FTP,DHCP,NTP,DNS,DDNS,PPPOE,UPNPRS485接口无报警接口无音频输入无音频输出无红外距离50-60M红外灯2颗大功率红外灯供电支持AC24V/DC12V/POE供电（可选）功耗<5W不含红外灯；红外灯开启<8W工作环境温度-10℃～60℃，湿度0%~90%CA-NF416G支持网络校时，可26个时区选择支持主/辅/轮巡视频三个独立的本地输出支持HDMI/VGA高清输出支持10M/100M/1000M自适应网络接口支持H.264 realtime 编解码功能支持最多8路720P实时解码显示,主从码流录像支持图像实时回放局部放大支持通道画面轮巡三级权限用户管理，管理员可以创建多个操作用户并设定其权限，权限可细化到通道支持四种录像方式:手动，定时，报警，移动支持预录和延时录像支持双向语音对讲，支持有源麦克风支持精确时间回放，支持多路回放，回放带播放器可隐藏，可显示每个通道支持4块区域遮挡支持RS485，RS422通道透明传输支持域名解析，拨号，同时支持掉线自动重传通过远程客户端设置参数，升级，预览，点播，备份录像机中的录像数据具备WEBSERVER访问功能，可对NVR进行远程操作支持P2P功能型号CA-NF416G操作系统嵌入式实时操作系统视频制式PAL/NTSC视频显示最大16路720P/8路1080P用户接口WEB、客户端操作界面语音对讲1路对讲输入输出视频压缩H.264/MJPEG音频压缩G.711A/ADPCM硬盘8个SATA接口，最大容量2TB报警输入16路报警输入支持常开/常闭两种形式报警输出4路报警输出（常开,继电器输出）操作方式多功能红外遥控器，USB鼠标，串口控制键盘、前面板按键串行接口RS485，RS422，支持网络透明通道连接，支持串口控制键盘备份接口2个ESATA接口，2个USB2.0接口网络接口支持RJ45 ，10/100M 自适应以太网端口，支持PPPOE，DHCP等多种协议录像模式手动，移动侦测，定时，报警触发，预录HDMI输出720P，1080i，1080PVGA输出1920X1080，1280X1024，1280X720，1024X720图像质量5档可调供电电源220V±30%V,50±3%Hz,110±20%V,60±3%Hz自适应功耗<20W(不含硬盘)尺寸 (长X 宽X 高)mm450mm x440mm x89m m重量10.0kgCA-CMSKB3000◆∙支持多路前端摄像机和球机的视频预览及控制◆∙采用7寸720p分辨率TFT触摸晶屏，显示内容丰富，屏幕帮助信息齐全。

前言版权所有本刊物，包括所有的照片，插图和软件，是根据保护国际版权法，并保留所有权利。

而本手册，也没有任何包含的材料外，可以不写作者的同意转载。

1.1版免责声明本文件中的信息如有变更，恕不另行通知。

制造商不就的内容不作任何陈述或保证本协议并明确不承认任何对适销性或特定用途的任何隐含保证。

制造商保留的权利，修改本出版物和更改本法没有时间，生产商有义务在任何时间通知内容人的修改或变更。

商标识别微软的MS - DOS和Windows是微软公司的注册商标MMX公司，奔腾，奔腾二，奔腾三，赛扬是英特尔公司的注册商标心病，第一高。

其他产品在本手册中使用的名称是其各自所有者的财产和是公认的。

联邦通讯委员会（FCC）的本设备已经过测试，证明符合B类数字的限制设备，根据FCC规则第15条。

这些限制旨在提供理由，能够保护，防止有害干扰，在一个住宅安装。

本设备产生，使用，并能发射无线电频率能量，如果没有安装和使用的指示，根据可能造成有害干扰无线电通讯。

但是，我们不能保证不会产生干扰在特定的安装。

如果本设备确实造成有害干扰无线电或电视接收可以通过打开和关闭设备来确定，用户可以尝试纠正一个或多个下列措施排除干扰：••• •重新调整或重新定位接收天线增加设备与接收器的分离线路上连接到不同的设备，电源插座上接收器连接咨询经销商或有经验的无线电/电视技术人员寻求帮助屏蔽电缆和屏蔽的互连交流电源线必须与此雇设备，以确保符合有关射频管这类规定的排放限值设备。

变更或修改，明确许可的系统制造商可能导致用户无权操作设备。

前言二符合性声明此设备符合FCC规则的15。

操作必须符合以下条件：•该设备不会产生有害干扰，此装置必须接受任何收到的干扰，包括干扰这可能导致意外操作加拿大通信部此B类数字设备符合加拿大干扰的所有要求，造成设备规例。

鲸鱼appareil Numerique的德拉classe乙respecte toutes莱斯紧迫性河畔乐杜Réglement 物资brouilieur杜加拿大。

T 21:59:41+02:00The 1-channel isolating switching amplifier IM1-12EX-R is equipped with an intrinsically safe input circuit.Sensors according to EN 60947-5-6 (NAMUR)or potential-free contact transmitters can be connected to the device.The output circuit features 2 relays each with NO contact, one of which works as alarm out-put.You can toggle between working or closed current, resp. NO or NC mode via three switches at the front. The switching state of channel 1 is thereby transmitted to the outputs 1 and 2.When using mechanical contacts, wire-break and short-circuit monitoring must be switched off or the contacts must be wired to resistors (II) (see circuit diagram).The Pwr LED lights green to indicate opera-tional readiness. The 2-color LED 1 lights yel-low to indicate the switching status of the as-sociated output. In the event of an input circuit error, the associated 2-color LED turns red,provided the input circuit monitoring function is activated. Thereupon the output and the alarm relay drop out.■ATEX, IECEx, UL, FM , CSA, TR CU,NEPSI, KOSHA, TIIS, CCOE, INMETRO■Installation in zone 2■ 2 relay outputs (NO)■Output mode adjustable (NO/NC mode)■Common alarm output■Input circuits monitored for wire-break/short-circuit (ON/OFF switchable)■SIL 2■Complete galvanic isolationT 21:59:41+02:00Type code IM1-121EX-R Ident no.7541229Nominal voltage Universal voltage supply unit Operating voltage 20…250 VAC Frequency40…70 Hz Operating voltage range 20…125 VDC Power consumption ð 3 WNAMUR input NAMUREN 60947-5-6Input circuit monitoring on/off switchable No-load voltage 8.2 VDC Short-circuit current 8.2 mA Input resistance 1 k òCable resistance ð 50 òSwitch-on threshold 1.75 mA Switch-off threshold1.55 mA Wire breakage threshold ð 0.06 mA Short-circuit threshold ï 6.4 mAOutput circuits (digital) 2 x relays (NO)Relay switching voltage ð 250 VAC/30 VDC Switching current per output ð 2 ASwitching capacity per output ð 500 VA/60 W Switching frequency ð 10 Hz Contact quality AgNi, 3µ AuGalvanic isolation Test voltage 2.5 kVImportant noteFor safety applications the values specified in the safety manual or the relevant Ex certificates (ATEX,IECEx, UL, etc.) apply.Ex approval acc. to conformity certificate TÜV 04 ATEX 2553Application areaII (1) G, II (1) Dignition protection category [Ex ia Ga] IIC; [Ex ia Da] IIIC Max. values:Terminal connection: 1+4Max. output voltage U ð 9.6 V Max. output current I ð 11 mA Max. output power P ð 26 mW CharacteristiclinearInternal inductance/capacitance L /C Li = 65 µH, Ci negligibly small External inductance/capacitance L /C Ex ia IICIIB Lo [mH]151021020Co [µF]1,10,830,745,23,83,4Ex approval acc. to conformity certificate TÜV 06 ATEX 552968 X Application area II 3 GProtection type Ex nA nC [ic Gc] IIC/IIB T4 Gc Max. values:Terminal connection: 1+4Max.output voltage U ð 9.6 V Max. output current I ð 11 mA Max. output power P ð 26 mW CharacteristiclinearInternal inductance/capacitance L /C Li = 65 µH, Ci negligibly small External inductance/capacitance L /CEx icIICIIBLo [mH]15101510Co [µF]1.91.41.2117.5 6.6DimensionsOutput relay – Load curveOutput relay – Electrical lifetimeT 21:59:41+02:00IndicationOperational readiness green Switching state yellow Error indicationredMechanical Data IP RatingIP20Flammability class acc. to UL 94V-0Ambient temperature -25 …+70 °C-25 ... +60 °C für UL, FM, TIIS Storage temperature -40…+80°C Relative humidity ð 95 %Dimensions 104 x 18 x 110 mm Weight156 gMounting instruction for DIN rail / panel Housing material polycarbonate/ABSElectrical connection 4 x 3-pin removable terminal blocks, reverse polarity protected, screw connection Terminal cross-section 1 x 2.5 mm / 2 x 1.5 mm Tightening torque0.5 NmT 21:59:41+02:00AccessoriesType codeIdent no.DescriptionDesignIM-CC-3X2BU/2BK6900475Cage clamp terminals for IM modules (Ex-devices with 18mm overall width); includes: 2 pcs. 3-pin blue terminals and 2pcs. 3-pin black terminals.WM1 WIDER-STANDSMODUL0912101The resistor module WM1 meets the requirements for line monitoring between a mechanical contact and a TURCK signal processor. The input circuit of the signal processor is designed for sensors acc. to EN60947-5-6 (NAMUR) and equipped with a wire-break and short-circuit monitoring func-tion.。