NAVTELECOM SMART S-2423 Operation Manual
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NAVTELECOM SMART S-2423 Operation Manual

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GPS/GLONASS TRACKING EQUIPMENT
SMART S-2423
Operations manual
Installation and connection of the device
v1.0
MOSCOW
2020

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Summary of Contents for NAVTELECOM SMART S-2423

  • Page 1 GPS/GLONASS TRACKING EQUIPMENT SMART S-2423 Operations manual Installation and connection of the device v1.0 MOSCOW 2020...
  • Page 2 Customers are strongly advised to study this document carefully before the installation and operation of the device. Navtelecom LLC is interested in constantly improvement of the manufactured products quality. Please, contact our technical support by email address: support@navtelecom.ru...

  • Page 3: Table Of Contents

    ONTENTS ............................2 ONTENTS 1. BASIC CHARACTERISTICS ......................3 1.1 Purpose of the system ......................3 1.2 System tasks ..........................3 1.3 Operational principles ......................3 1.4 Basic technical characteristics ....................4 1.5 Appearance of the device ......................6 1.6 Standard equipment set ......................7 1.7.

  • Page 4: Basic Characteristics

    1. BASIC CHARACTERISTICS 1.1 Purpose of the system The equipment is a GPS-GSM Based Vehicle Tracking System. It is allowed to use the following terms in relation to this device: “system”, “product”, “equipment”, “device” “terminal”, “tracker”. The system is designed for: ...

  • Page 5: Basic Technical Characteristics

    1.4 Basic technical characteristics Tab 1 S-2423 GSM/GPRS/Bluetooth GSM 850, EGSM 900, DCS 1800, PCS GSM frequency bands 1900 GPRS class B, multislot class 12 Class 4 (2W) в GSM 850 и EGSM 900; Transmitter power Class 1 (1W) в DCS 1800 и PCS 1900 Maximum speed of data transfer/reception, kbit/s 85,6 SIM card holder 1...
  • Page 6 1-Wire interface Number of outputs of the “open collector” type for the external devices control Maximum switching current by the control outputs, mA Maximum switching voltage by the control outputs, V Built-in 3-axis accelerometer Maximum impact loading measured by the device, g Performance specifications Enclosure protection level IP54...

  • Page 7: Appearance Of The Device

    1.5 Appearance of the device On the front part of the device unit (figure1) is located:  14-pin connector of Microfit-14 type for connection of power supply, digital and analog sensors and control lines. On the side of the device unit (figure2) is located: ...

  • Page 8: Standard Equipment Set

    1.6 Standard equipment set Tab. 2 Version of complete set № Name Number of pieces Device unit 14-pin connector of Microfit-14 with two power wires Cable set of 5 installation wires Interface cable with MiniUSB connector Passport Package Figure 4. 14-pin connector of Microfit-14 Figure 5.
  • Page 9 Figure 7. Fuel level sensor Figure 8. External LED Figure 9. Temperature sensor Figure 10. TouchMemory contact key reader The manufacturer reserves the right to complete the devices with equipment whose set, appearance and characteristics differ from those shown in the figures.

  • Page 10: Device Components

    1.7. Device components The device consists of the following elements (see figures 11-14): 1) front cover; 2) fixing hole; 3) system LED indicator; 4) GSM LED indicator; 5) GLONASS / GPS LED indicator; 6) 14 pin connector; 7) MiniUSB connector; 8) SIM-card 1 ejector holder;...
  • Page 11 Figure 13 Figure 14...

  • Page 12: Device Interface Connector

    1.8 Device interface connector Figure 15. System 14-pin interface connector 1 - Power “Plus” (+ U 2 – “Ground” (GND) 3 - Universal input 1 (UIN1) 4 - Universal input 2 (UIN2) 5 - Universal input 3 (UIN3) 6 – Output 1 "open collector" (OUT1) 7 –...

  • Page 13: Device Connection

    2. DEVICE CONNECTION 2.1 Installation Before the system installation, first of all, it is necessary to determine the type and number of the connecting sensors, the identification system and other additional equipment. It is also necessary to be sure that all the additional equipment connected to the terminal are operable.

  • Page 14: Sim-Card Installation And Operation

    2.2 SIM-card installation and operation The device supports using of one SIM-card. The SIM card (external) installation is carried out without the use of special tools. Figure 17. SIM-card installation to the device Remove the SIM card holder from the device by pressing the yellow ejector button with a pen or a pencil. Place the SIM card in the holder with the gold contacts facing out.

  • Page 15: Universal Inputs Connection

    Fuse (1А) «-» «+» «GND» Car battery Figure 18. Power connection 2.4 Universal inputs connection 2.4.1 Analog sensors connection The device allows to measure the voltage applied to the inputs in the range of 0 ... 31 V. When connecting analog FLS or other sensors for which the output voltage has to be monitored, the voltage measurement profile must be set in the inputs setting.
  • Page 16 pull-up. Accordingly, the "Discrete NO-", "Discrete NC-" profiles will not be available for the UIN1. Therefore, connecting sensors operating by "ground", their connection scheme to the device via the UIN1 will differ from the scheme used to connect to the UIN2 and UIN3. CPU_pull-up CPU_adc Figure 20.
  • Page 17 2–10 кОм CPU_adc Figure 23. Connection of normally closed (NC-) sensors to UIN1 Profiles "Discrete NC+" and "Discrete NO+" allow to work with sensors, which, when turned on or off, close the input to “+” supply voltage. CPU_pull-up CPU_adc Figure 24. Connection of normally open (NO+) sensors CPU_pull-up CPU_adc Figure 25.

  • Page 18: Pulse Frequency Sensors Connection

    Note: It is recommended to connect one of the universal input (usually UIN1) to the vehicle ignition line and make the appropriate setting in the configuration. However, such connection is not mandatory. In addition to the source of notifications about turning on and turning off events, the input is used in coordinate processing algorithms (for example, when they are averaged at parking lots), energy saving, when calculating engine hours and in some other device algorithms.

  • Page 19: Built-In Accelerometer

    Attention! Due to the technological specifications of the device, the UIN1 is designed without taking into account the built-in pull-up. Accordingly, the "Discrete NR-", "Discrete NZ-" profiles will not be available for the UIN1. Therefore, connecting sensors operating by "ground", their connection diagram to the device via the UIN1 will differ from the diagram used to connect to the UIN2 and UIN3.
  • Page 20 Settings of the outputs are made in the “Output lines” tab of the NTC Configurator program. One of the outputs can be used for control of sound signal emitting with help of the buzzer, for warning or EcoDriving function indication and for reminding about TM-key attaching (or RFID card). Buzzers may be different in operating voltage, in the presence or absence of a built-in generator.
  • Page 21 Figure 32. Connection diagram for car siren with control input by “-”. In order to connect car sirens without an additional control input, the inclusion of which is carried out by applying the supply voltage, it is necessary to use an additional relay, since the current consumed by such a siren may exceed the maximum allowable value for the output of the device.

  • Page 22: 1-Wire Informational Interface (Ibutton) Connection

    necessary to connect an additional 1N4007 diode (1A, 1000V) in parallel to the relay coil, as indicated in Figure35 At the stage of correctness verification of the connection and settings of the device, it is not recommended to include actuators in the relay circuit directly. It is advisable to do this at the final stage of testing. Fuse Diode 1N4007 Fuse...
  • Page 23 Figure39. Appearance of Proximity-cards and keyfobs and possible variants of their readers The terminal has the ability to connect temperature sensors to the 1-Wire interface using a two-wire circuit with “parasitic” power. Power is supplied through the same wire as the signal, therefore: the connection is made by two wires connected to the connector pins of the GND device (“ground”) and IBUT 1-Wire (signal and power).

  • Page 24: Rs-485 Interface Connection

    2.8 RS-485 interface connection The digital interface RS-485 is designed to connect devices transmitting and receiving information via this interface, for example, fuel level sensors, CAN bus adapter, RFID. As a rule, the interface is used to connect up to 6 digital fuel sensors. It is supposed to use digital LLS-compatible sensors.

  • Page 25: Led Indication

    3. LED INDICATION In order to display the operation modes and the current state of the system, three LEDs on the device case are used: SYS, GSM and NAV. The SYS system LED indicates the current status of the device. This LED indicates an alarm state if an alert is sent to subscribers by SMS, or an input is in the activated state.

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