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Vs-1200-sm1g™ Product Manual

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VS-1200-SM1G GPS Speaker Microphone with Frequency Domain Scrambler VS-115-SM1G GPS Speaker Microphone with Rolling Double Inversion Scrambler VS-1150-SM1G GPS Speaker Microphone with Double Inversion Scrambler VS-1050-SM1G GPS Speaker Microphone with Voice Inversion Scrambler Manual Revision: 2016-01-01 Covers Firmware Revisions: VS: 1.60 & Higher Covers Hardware Revisions: VS-SM1: E & Higher 1 HARDWARE SPECIFICATIONS Operating Voltage 3.5-8.0 VDC Operating Current: VS-1050-SM1G (No GPS Power Save Mode) Power Save Mode (VOX Operation) Normal Operation - TX Normal Operation – RX Average w/VOX Power Save (80-10-10 cycle) Average w/VOX Power Save (90-5-5 cycle) 56 mA typical 56 mA typical 94 mA typical 60 mAh* 58 mAh* Operating Current: VS-1050-SM1G (with GPS Power Save Mode) Power Save Mode (VOX Operation) Normal Operation - TX Normal Operation – RX Average w/VOX Power Save (80-10-10 cycle) Average w/VOX Power Save (90-5-5 cycle) 18 mA typical 19 mA typical 94 mA typical 26 mAh* 22 mAh* Operating Current – VS-1200, VS-115, VS-1150 (No GPS Power Save Mode) Power Save Mode (VOX Operation) Clear or Inversion Operation - TX Clear or Inversion Operation – RX FFT Scrambling Operation - TX FFT Scrambling Operation – RX Average w/VOX Power Save (80-10-10 cycle) Average w/VOX Power Save (90-5-5 cycle) 59 mA typical 60 mA typical 102 mA typical 100 mA typical 148 mA typical 39 mA* 30 mA* Operating Current – VS-1200, VS-115, VS-1150 (With GPS Power Save Mode) Power Save Mode (VOX Operation) Clear or Inversion Operation - TX Clear or Inversion Operation – RX FFT Scrambling Operation - TX FFT Scrambling Operation – RX Average w/VOX Power Save (80-10-10 cycle) Average w/VOX Power Save (90-5-5 cycle) 21 mA typical 32 mA typical 102 mA typical 72 mA typical 148 mA typical 73 mA* 67 mA* Operating Temperature Frequency Response Input Impedance Input Level (RX) Audio Output Impedance (Single Ended with R-12 uninstalled) -30 - +60 C 300-3000 Hz >33  0.05-2.5 VPP 47 KΩ * - The transmit and receive cycles are based on scrambled mode. When using clear mode, the consumption will decrease. 2 SECURITY SPECIFICATIONS VS-1200: Total Code Combinations Actual Code Combinations Number of Selectable Keys Levels of Security Inversion Level 0 Level 1 Level 2 Level 3 ~6.2 x 10^23 ~4 Billion 3 5 2100-4100 Hz (0-15 Hz resolution) 8 bins 16 bins 32 bins 64 bins VS-115: Total Number of Codes Number of Codes Number of Groups Number of Selectable Codes 1020 255 4 4 VS-1150: Total Number of Codes Number of Selectable Codes 32 4 VS-1050: Number of Selectable Codes Inversion Frequency Range 4 2100-4100 Hz (0-15 Hz resolution) ANI SPECIFICATIONS Midian’s FMP Unit ID Range Midian’s FMP Group ID Range Midian’s FMP ANI Timing with Coordinates Midian’s FMP ANI Timing without Coordinates 00000-FFFFF 000-FFF 413 msec 200 msec DTMF ANI Length DTMF ANI Timing 5-Tone ANI Length 5-Tone ANI Timing G-Star ANI Range G-Star ANI Timing Motorola’s MDC-1200 ANI Range Motorola’s MDC-1200 ANI Timing Kenwood’s FleetSync Unit ID Range Kenwood’s FleetSyncUnit ID Timing Up to 6-digits 60/40 msec (Programmable) Up to 6-digits Programmable 0001-9999 320 msec 0000-FFFF ~180 msec 1000-4999 ~100-150 msec INSTALLATION OVERVIEW 1. Test the radio for functionality. 2. Program the unit per the Product Programming Section of this manual. 3. Install the unit into the radio per the Hardware Installation Section of this manual. *** Midian is not responsible for any damage/loss resulting from the use of Midian’s products. 3 GENERAL INFORMATION Midian’s GPS speaker microphones encode a user’s GPS coordinates along with the user’s ANI and Emergency ANI to display on Midian’s CAD-800 or CAD-800U base station controllers. The following is a list of benefits provided by Midian’s GPS systems:      Allows dispatchers to know who he or she is talking to. Identify system abusers. Identify emergency conditions. Assign calls fairly. Track user location. Midian’s SM1G series encodes ANI and Emergency ANI along with Midian’s GPS location reporting to Midian’s CAD-800 or CAD-800U which uses a Google Earth interface to display the unit’s location on a map. The SM1G series also offers Man-Down and Lone Worker features. If the unit does not detect movement (ManDown) or receive any user interaction (PTT or Lone Worker Reset button) for a programmable period of time the unit can key the radio and send the Emergency ANI. In addition to the above encoding features, Midian’s GPS speaker mics can decode commands from the CAD-800 such as Polling, Selective Calling, Radio Disable, Radio Enable, Spy (Remote Monitoring) and Emergency Acknowledge. Polling allows the dispatcher to request a unit’s GPS location. Selective calling can be to call an individual unit, a group of units or all units. If a unit becomes lost or stolen, it can be disabled, so it cannot interfere with the system. If the unit is later recovered the unit can be re-enabled. The Spy function enables the dispatcher to eavesdrop on a unit during an emergency or other condition. If multiple Emergency IDs are transmitted, the dispatcher can stop subsequent Emergency ID transmissions using the Emergency Acknowledge feature. VS-1200: The VS-1200 is a Digital Signal Processor (DSP) based Frequency Domain voice scrambler offering a high level of voice privacy. The DSP converts the analog signal into quantitized digital data. It then converts the “Time Domain” signal into the “Frequency Domain”. This results in an audio “frequency spectrum”, which is then partitioned into bins that are encrypted by the non-linear key generator. The digitized data is converted back to the analog realm using a digital to analog converter. The above technique and the lack of synchronization result in excellent audio quality, high security and enable the VS-1200 to be used in virtually any type of radio system. These systems include HF SSB, Conventional TwoWay, Trunking, Voting and Simulcast. VS-115: Midian’s VS-115 is a rolling double inversion scrambler that offers 1020 possible codes (4 groups with 255 codes per group). Of these codes the scrambler may be programmed with up to 4 of these codes. The VS-110 series is compatible with Icom’s UT-110. VS-1150: Midian’s VS-1150 is a double inversion scrambler (aka split-band scrambler) that offers 32 possible codes. Of these 32 codes the scrambler may be programmed with up to 4 of these codes. The VS-1150 series is compatible with Midian’s VPU-6, Icom’s UT-109 or Inysa’s XPTO. VS-1050: Midian’s VS-1050 is a voice inversion scrambler that provides up to 4 different inversion frequencies that are button selectable. The programmable inversion frequency range is from 2100 Hz to 4096 Hz and provides compatibility with Midian’s VPU series voice inversion scramblers, as well as other industry inversion scramblers. 4 HARDWARE INSTALLATION Be certain to follow standard anti-static procedures when handling any of Midian’s products. For all diode protected inputs (i.e. PTT Input, Mode Input, COR Input) the voltage level to be required for a logic low is less than 0.5 V and a logic high requires at least 2.1 V. J1 – RJ-48 10-Pin Connector: J1:1 J1:2 – PL DIS: Hook switch for mobile radio applications. J1:3 – MIC: Connect to the MIC+ connection on the radio’s external mic connector J1:4 – Ground: Connect to a ground connection on the radio’s external mic connector. J1:5 – COR/LTR: Future use. J1:6– B+ (+3.5-8.0 VDC): This connection is only needed if not using the internal battery of the SM1. Connect to B+ (3.5-8.0 VDC) connection on the radio’s external mic connector. If connecting to a mobile this must be specified when ordering or you must install a 6.2 V Zener diode at D1 if the voltage is higher than 9.7 V. Connect to a regulated voltage point in a vehicular radio if engine noise is present on the battery line. With D1 installed, the voltage input could be as high as 15 VDC (nominal is 13.5 VDC). R-5 O Ohm resistor must be installed. Note: If connecting this input DO NOT install the battery into the microphone and U1 must be removed. J1:7 – PTT: Connect to a PTT connection on the radio’s external mic connector used to key the radio. Some radios look for a resistance on the microphone input to trigger PTT, R-50 in the SM-1 is used for this purpose and will need to be picked on an individual radio basis. For Vertex radios this should be a 2.7 K resistor. J1:8 – SPK Ground (SPK-): If connecting to a radio with a double ended speaker, then connect this line to the negative side of the speaker connection on the external mic connector. If connecting to a radio with a single ended speaker, this line is not connected. J1:9 – SPK Hi (SPK+): Connect this line to the positive side of the speaker connection on the external mic connector. J1:10 – J2 – 3.5 mm Stereo Connector: The 3.5 mm stereo connector on the SM1 is a multipurpose connector; charging, earpiece audio, and programing as well. The tip is 6V for charging, ring is Speaker + and sleeve is ground. Use only Midian supplied wall power adaptors and audio accessories for use with the SM1. Charging: To charge the unit, plug the Midian supplied wall power adaptor into an outlet and then plug the 3.5 mm plug into the 3.5 connector on the unit. When the LED is glowing green the unit is charging. When the LED goes out then it is done charging. When the unit is in need of a charge the unit will emit a descending series of tones to indicate low battery. Only use Midian provided accessories for charging. Audio: The 3.5 mm connector can be used as an audio accessory port (i.e. ear bud). The connections should be ring as Speaker + and Sleeve as ground. Not using a Midian supplied audio accessory could result in damage to the unit. 5 PRODUCT PROGRAMMING Midian’s SM-1 products are programmed via Midian’s KL-4F and KL-4F-PC1 MIC cable as well as the MPS software. Please reference the KL-4 manual for setup instructions of the programming software and hardware. PORT ASSIGNMENT and SOFTWARE INSTALLATION Go to our website midians.com and under downloads> software down load the latest MPS software version. If using the supplied CD-ROM insert it into the PC’s CD-ROM drive. In the browser that will pop-up, install the MPS programming software. Be certain that the “Install KL-4 USB Driver” box is checked during the installation process. Open Windows’ Control Panel and go to Device Manager. Open Ports (COM& LPT) to identify the port assignment issued by computer. Plug in the KL4 programmer to the USB port and the screen will flash and show the device location. Open the software and choose product from product tree then set appropriate comport selection in the MPS software as needed. Plug the KL-4F-PC1Mic cable into P10 connector on the KL-4F and into the J-2 programming jack on the Mic. Apply power to the Mic and issue read command between 5-10 seconds after power up. The Mic has a power save mode and programming will time out after this time. Set the parameters of the software to fit the application. If any clarifications on a feature are required, move the mouse cursor over the feature name until the question mark appears and right click, a definition of the feature will be shown. After entering the parameters, save the file by going to File - Save As. Enter the file name in the File Name block and click Save. Saving the file will allow for quick and easy reprogramming of units. After programming or reading the unit, turn off the unit for 3 seconds and then turn back on. 6 Wake on COR/Wake on VOX: Select the appropriate method that the unit should use to come out of power save. Note: Most portables do not provide COR detection on the speaker mic port, so it will be necessary to use VOX detection. COR Hold-Up Time This is the amount of time after loss of COR/VOX that the unit considers COR/VOX dropped. VOX Settings > Sensitivity: This is a threshold detection based on the energy level in the audio. VOX Settings > Attack Time: This sets the minimum time before the unit will detect VOX. VOX Settings > Decay Time: This sets the time before the unit will drop the VOX detection. Be certain to set this long enough so that you do not have drop outs between words or on brief pauses. Beep Options > Power Up: Enables a short beep sequence that takes place immediately after power-up. Beep Options > Error: This beep may be triggered by any input event if programmed to do so. For example, if a long press on the Mode Input is not assigned to a function, it may be configured to generate the error beep. If there is a failure of the GPS module, then about 20 seconds after power up the error beep will be heard. Beep Options > Mode: This is used to indicate to the user when the mode has been enabled/disabled (i.e. Lone Worker enabled). Beep Options > Go Ahead: This is a local beep out the speaker to indicate to the user that ANI has been sent and it is okay to talk. Beep Options > Wake Up Beep: Enables a short beep to be sent over the air after PTT is pressed. Enabling this beep is recommended when the 'Wake on VOX' feature is used. Beep Options > Courtesy Beep: If selected, once the PTT button is released, the unit will generate a courtesy tone to let others know it is done transmitting. Beep Options > Enable Side Tone Pin: Future Use. 7 Trunking Delay Enable: Check this box if using a trunking system. This will cause the unit to hold off transmitting the ANI until it has received a channel acquisition acknowledgement from the radio. This field is not used with portable radios. Key-Up Delay: This sets the amount of time the unit waits after keying the radio before it transmits the ANI. CAD Settings: System ID: Set this field to the same value as the System ID programmed into the CAD-800 or CAD-800U. Only a CAD-800 with the same System ID can decode the GPS location information from the GPS speaker mic. This field is a six character field that supports 000000-FFFFFF (0-9 & A-F) for a total of 16,777,216 possible System IDs. Restore System ID To Default: Pressing this button will return the System ID to Midian’s default System ID of 4D6964. Group ID: This sets the group number that the unit is a part of. The Group ID is a 3 character field that supports 000-FFF (0-9 & A-F) for a total of 4096 groups. Individual ID: This sets the unit’s identification number. The Individual ID is a 5 character field that supports 00000-FFFFF (0-9 & A-F) for a total of 1,048,576 unit IDs per group. Between all groups and unit IDs the total number of supported IDs by the system is 4,294,967,296. Enable CAD Decode: Checking this box enables Midian’s FMP signaling features such as Polling, Radio Disable, Radio Enable, Selective Calling, Remote Monitoring and Emergency Acknowledge. Polite Transpond: If the unit is required to transpond in response to a command from the CAD-800, it will do so immediately after receiving the command. Checking this box will cause the unit to check for a busy channel indication (using VOX or COR) before transponding. If the channel is busy, the transpond will be postponed until the channel is no longer busy. Spy Duration: When a Spy command (remote monitoring) is received from the CAD-800, this sets the amount of time that the speaker mic will key-up the radio and transmit audio from the microphone. Number of Rings: This sets the number of times the speaker microphone will ring when it receives a selective call before timing out. 8 GPS Enable: Check this button to enable the GPS or GLONASS features of the product. GNSS: Select which Global Navigation Satellite System (GNSS) is being used GPS or GLONASS. GPS is the United States’ form of GNSS. GLONASS is Russia’s form of GNSS. GLONASS is currently in development. Please contact Midian for the availability of GLONASS in the GPS speaker microphone. Beep Upon First Fix: If checked, the GPS speaker microphone will give a double beep once the GPS speaker microphone has acquired a location fix. The time to acquire a fix is dependent upon various conditions such as terrain, buildings, weather, etc. Under ideal conditions this time could be as fast as 30 seconds. A first fix acquisition time of 2-3 minutes would not be abnormal under other conditions. GPS Power Save Enable: Checking this box will help extend battery life by placing the GPS receiver in a low power or “sleep” state for 30 seconds in between position fixes. Upon waking, the GPS receiver is left on at full power until two valid position fixes are determined and then once again is placed in sleep mode. Under good signal conditions it takes about 20 seconds for the GPS receiver to acquire new fixes after waking. Therefore one can expect a new fix to be determined about once per minute, though this cannot be guaranteed. 9 Signaling Position Settings: Leading and trailing signaling types (ANI, FMP and FMP w/GPS) can be selected here. For example MDC-1200 can be sent on the leading edge and Midian’s FMP with GPS can be sent on the trailing edge. ANI: The ANI specified in this selection is not the typical FMP ID used by Midian’s GPS speaker mics. Instead this refers to ANI formats such as MDC-1200, FleetSync, DTMF, 5-Tone or GE-Star. One of these formats can be selected to send a pre-ANI or post-ANI. FMP: This refers to Midian’s signaling protocol used in the GPS speaker microphone minus the GPS location information. FMP w/GPS: This refers to Midian’s signaling protocol used in the GPS speaker microphone including the GPS location information. Protocol Format: Select the desired signaling format in which the ANI and ENI will be transmitted. Tone Duration: This field only applies to DTMF and 5-Tone formats and sets the length of each tone. Tone Gap Duration: This field only applies to DTMF and sets the length of the gap between tones. Fleet ID: This field only applies to FleetSync and sets the Fleet ID of the unit. Unit ID: This sets the non-FMP ANI of the unit. Message: This field only applies to G-Star. Status: This field only applies to G-Star. Repeat Delay: This sets the time after sending an ANI that the unit will wait before sending another ANI. 10 FMP: This refers to Midian’s signaling protocol used in the GPS speaker microphone minus the GPS location information. FMP w/GPS: This refers to Midian’s signaling protocol used in the GPS speaker microphone including the GPS location information. Protocol Format: This displays the format selected on the ANI tab. Fleet ID: This field only applies to FleetSync and sets the Fleet ID for the ENI. Unit ID: This sets the Emergency ANI of the unit. Message: This field only applies to G-Star. Status: This field only applies to G-Star. Transmit Forever: If selected the ENI will transmit continuously at the repeat interval until canceled. Busy Lockout: When it is time to transmit the ENI, if this box is not checked the transmission will take place regardless of whether or not the channel is busy. If this box is checked and the channel is busy (as indicated by COR or VOX), the ENI will not be transmitted. Instead the unit will wait 2.3 seconds and then check again to see if the channel is busy. If the channel is not busy at that time, the ENI will be transmitted. If, not the process will repeat indefinitely. Transmit Count: This sets the number of times the ENI will be sent. Repeat Interval: This sets the time between ENI transmissions. PTT Resets/Cancels ENI: If selected, pressing the PTT button will either reset the Lone Worker’s Transmit Delay time or cancel the transmission of the ENI. Live Mic Enable: If selected the unit will enable the mic of the radio to transmit mic audio to the dispatcher. Revert to Clear: This will switch the TX mode to Clear when using Live Mic. Locator Tone Enable: If selected the unit will emit tones out the speaker after all Emergency ANI’s have been sent. This feature is not available if Transmit Forever is checked. 11 Transmit Delay: In Lone Worker mode, if the user does not interact with the radio before this amount of time passes, the ENI sequence will be transmitted. This time is in seconds. Warning Tone Enable: This will generate a tone sequence to alert the user the ENI is about to be transmitted. Warning Tone Delay: In Lone Worker mode, if the user does not interact with the radio before this amount of time passes, the emergency warning tone will be sounded. This amount of time must be less than that of the Transmit Delay for the warning tone to be sounded. Also, the Warning Tone Enable box must be checked for the tone to be sounded. For example, based on the screen shown above after 105 seconds of no activity the unit will generate warning tones. The user then has 15 seconds (120 minus 105) to interact with the radio to keep the Transmit Delay time of 120 seconds from expiring and the ENI being transmitted. Continuous Warning Enable: This will generate a constant tone to alert the user the ENI is about to be transmitted. Power-up with Lone Worker on: If checked the unit will be in Lone Worker mode when the radio is turned on. This eliminates the need for the user to use the mode input to turn the Lone Worker mode on. Motion Resets Delay Timers: The unit can use the accelerometer to detect motion based on the Motion Sensitivity setting to determine if the user is in distress in addition to requiring interaction with the radio. Motion Sensitivity: This sets a level of motion required to reset the Transmit Delay timer. Some work environments may have an inherent level of motion that would be detected by higher settings of the accelerometer, so a lower level of sensitivity might be needed. Midian recommends experimenting to determine the best sensitivity setting for the work environment. 12 Mute GPS or MDC-1200 ANI Packet: If checked, the unit will detect incoming GPS or MDC-1200 ANI packets and will mute the speaker for the Mute Duration time. A small chirp will still be heard out the speaker. Mute Duration: This sets the amount of time after the unit detects the incoming packet that it will keep the speaker muted. Midian’s GPS data packet without location is 200 msec and with location is 410 msec. Motorola’s MDC-1200 data packets are approximately 180 msec in length. Packet Detector Sensitivity: This controls the sensitivity of the preamble tone detector which triggers the muting of the data packets. If it is too sensitive (higher number), voice may cause the detector to trigger resulting in voice being muted when it should not. If it is not sensitive enough (lower number), the detector may not trigger when it is supposed to. Adjust the sensitivity as needed to achieve the desired results. For the GPS speaker microphones with scrambling, there is a separate sensitivity adjustment for when the unit is in scramble mode. 13 These fields set how the switch is used (short press, long press or double press) and for which function (Scramble On/Off, Lone Worker enable, Lone Worker Reset, Emergency On/Cancel, etc.). Note: Most portable two-way radios do not give a COR indication to the speaker microphone connector, so VOX detection should be used. COR > Active Polarity: This sets whether the unit looks for an active low or active high to come out of power save. COR > Debounce: If checked the unit will require a continuous active state for 30 msec before accepting the COR. 14 PTT > Active Polarity: This sets the polarity necessary for the unit’s PTT output to key the radio. 15 This page only applies to the VS-1200 product. Number of Keys: The VS-1200 can have up to 3 codes programmed into the unit. The codes can be programmed for either Frequency Domain or Voice inversion scrambling. Power Up In Scramble Mode: If selected the unit will start up in secure mode when the power is turned on. If it is desired to have the unit always in secure mode, then check this box and do not assign a button for mode select. Binary Select Enable: Not used in the VS-1200-SM1G. Binary Select Polarity: Not used in the VS-1200-SM1G. Equalization: Selecting Bass will yield louder recovered audio with good low frequency response. Selecting Treble increases the high frequency response resulting in recovered audio that sounds more crisp but is not as loud. This setting is a matter of preference. Note: All scramblers in the system must have this field set the same. High Security: When High Security is selected the VS-1200 is using the Frequency Domain type of scrambling. Security Level: The VS-1200 has four levels of Frequency Domain scrambling; levels 0, 1, 2 and 3. Level 0 offers 8 shuffling bins, Level 1 offers 16 shuffling bins, Level 2 offers shuffling 32 bins and Level 3 offers 64 shuffling bins. As the level of security is increased the audio quality will decrease. Inversion: The VS-1200’s codes can also be programmed for basic voice inversion scrambling. If selected a slider bar will appear. Merely scroll with the left/right arrows or grab the slider with the mouse and move to the desired inversion frequency between 2100 to 4096 Hz. 16 This page only applies to the VS-115-SM1G. Number of Codes: The VS-115-SM1G supports up to 4 codes. The codes can be programmed for either Rolling Double Inversion or Fixed Double Inversion scrambling. Power Up In Scramble Mode: If selected the unit will start up in secure mode when the power is turned on. If it is desired to have the unit always in secure mode, then check this box and do not assign a button for mode select. TX Pre/De-emphasis Enable: This setting controls the use of audio emphasis by the scrambler while transmitting. If checked, the scrambler will perform pre-emphasis before scrambling and de-emphasis after scrambling. If the radio performs pre-emphasis of TX audio after the scrambler insertion point, this box should be checked. If this information is not known, choose the option that yields the best recovered audio quality. See the diagram on the next page. RX Pre/De-emphasis Enable: This setting controls the use of audio emphasis by the scrambler while receiving. If checked, the scrambler will perform pre-emphasis before de-scrambling and de-emphasis after descrambling. If the radio performs de-emphasis of RX audio before the scrambler insertion point, this box should be checked. If this information is not known, choose the option that yields the best recovered audio quality. See the diagram on the next page. Continuous Synchronous Capture: This setting determines what will happen if a rolling code synchronization tone is received after the receiving scrambler has already synchronized and is de-scrambling. If this checkbox is cleared, a synchronization tone received before it is expected will be ignored. This may help prevent the receiving scrambler from incorrectly synchronizing on some tones in speech. However, the receiving scrambler may fail to synchronize properly with another scrambled transmission started immediately following the end of the previous transmission, preventing the first few seconds of the second transmission from being properly descrambled. If this happens frequently, this checkbox should be checked to enable Continuous Synchronous Capture mode, which instructs the receiving scrambler to re-synchronize any time a new synchronization tone is received. 17 Tone Start Timing: The transmitting scrambler will wait this amount of time before transmitting the first rolling code synchronization tone. Repeater systems and systems using CTCSS or DCS require time to 'open up' and pass audio. This delay allows that time to transpire before the first synchronization tone is transmitted. Binary Select Enable: This feature is not available in the VS-115-SM1G. Binary Select Polarity: This feature is not available in the VS-115-SM1G. 18 This page only applies to the VS-115-SM1G. Code 1-4: Fixed: If selected the security level for this code will be fixed double inversion. The chart on the next page shows how Midian’s VS-110 and VS-1100 double inversion code numbers match with the code numbers of the Icom UT109 and Inysa’s XPTO (Señalizacion y Telecontrol). Rolling: If selected the security level for this code will be rolling double inversion scrambling compatible with Icom’s UT-110. You will be prompted to enter a Group (1-4) and a code (1-255). This is a direct match to Icom’s UT-110 Groups and Codes. Note: Codes 5-16 are not available in the VS-115-SM1G. 19 The following table is relevant to Midian’s VS-115 (Fixed) and VS-1150. The first column in the table shows the code numbers of Midian’s VS-1150, VS-115 (Fixed) and VPU-6. The second column shows the Icom UT-109 code number that equates to the Midian code number. The third and fourth columns show the Inysa XPTO (Señalizacion y Telecontrol) code selection that equates to the Midian code number. The fifth column shows the binary ROM address of the code. The sixth, seventh and eigth columns show the inversion information of the code. Midian VS-1100 & VPU-6 Icom Inysa XPTO ROM Address Split Point Low Band High Band UT-109 XPTO Key # A4-A0 Hz Carrier Hz Carrier Hz A4 A3 A2 A1 A0 1 1      0 00000 2800 3105 6172 2 17     1 00001 2625 2923 6024 3 9    2 00010 2470 2777 5813 4 25    3 00011 2333 2631 5681 5 5     4 00100 2210 2512 5555 6 21    5 00101 2100 2403 5494 7 13   6 00110 2000 2304 5376 8 29   7 00111 1909 2212 5263 9 3     8 01000 1826 2127 5208 10 19    9 01001 1750 2049 5102 11 11   10 01010 1680 1984 5050 12 27   11 01011 1555 1858 4950 13 7    12 01100 1448 1748 4807 14 23   13 01101 1354 1655 4716 15 15  14 01110 1272 1572 4629 16 31  15 01111 1200 1501 4587 17 2     16 10000 1135 1436 4504 18 18    17 10001 1050 1351 4424 19 10   18 10010 976 1278 4347 20 26   19 10011 913 1213 4310 21 6    20 10100 857 1157 4273 22 22   21 10101 792 1094 4166 23 14  22 10110 736 1037 4132 24 30  23 10111 688 988 4065 25 4    24 11000 636 936 4032 26 20   25 11001 591 891 3968 27 12  26 11010 552 853 3937 28 28  27 11011 512 813 3906 29 8   28 11100 471 772 3846 30 24  29 11101 428 728 3816 31 16 30 11110 388 688 3787 32 32 31 11111 350 650 3731         20 This page only applies to the VS-1150-SM1G. Number of Codes: The VS-1150-SM1G can have up to 4 codes programmed into the unit. The codes can be programmed for any of the 32 double inversion split points shown on page 20. Power Up In Scramble Mode: If selected the unit will start up in secure mode when the power is turned on. If it is desired to have the unit always in secure mode, then check this box and do not assign a button for mode select. TX Pre/De-emphasis Enable: This setting controls the use of audio emphasis by the scrambler while transmitting. If checked, the scrambler will perform pre-emphasis before scrambling and de-emphasis after scrambling. If the radio performs pre-emphasis of TX audio after the scrambler insertion point, this box should be checked. If this information is not known, choose the option that yields the best recovered audio quality. See the diagram on page 20. RX Pre/De-emphasis Enable: This setting controls the use of audio emphasis by the scrambler while receiving. If checked, the scrambler will perform pre-emphasis before de-scrambling and de-emphasis after descrambling. If the radio performs de-emphasis of RX audio before the scrambler insertion point, this box should be checked. If this information is not known, choose the option that yields the best recovered audio quality. See the diagram on page 20. Binary Select Enable: This feature is not available in the VS-1150-SM1G. Binary Select Polarity: This feature is not available in the VS-1150-SM1G. 21 This page only applies to the VS-1150-SM1G. Code 1-4: The chart on page 20 explains Midian’s VS-1150 double inversion code numbers and shows how the codes match with the code numbers of the Icom UT-109 and Inysa’s XPTO (Señalizacion y Telecontrol). Note: Codes 5-16 are not available in the VS-1150-SM1G. 22 This page only applies to the VS-1050-SM1G. Number of Codes: The VS-1050-SM1G can have up to 4 codes programmed into the unit. The codes can be programmed for any inversion frequency between 2100-4096 Hz. The most commonly used inversion frequencies are 3276 Hz used by Midian and Transcrypt, 3333 Hz used by Vertex and 3388 Hz used by Icom and Kenwood. Power Up In Scramble Mode: If selected the unit will start up in secure mode when the power is turned on. If it is desired to have the unit always in secure mode, then check this box and do not assign a button for mode select. Binary Select Enable: This feature is not available in the VS-1050-SM1G. Binary Select Polarity: This feature is not available in the VS-1050-SM1G. 23 Packet-Based Auto-Descramble: If this box is checked, the receive mode of the scrambler is automatically switched between scramble and clear. If the unit receives a leading FMP packet without GPS indicating that the transmitter is in scramble mode, then it will automatically descramble the transmission. The receive mode will go back to clear when the transmission ends which is when COR or VOX goes inactive. The state of the mode switch will have no bearing on the receive mode of the scrambler. For this feature to work, units must have the Leading FMP ANI enabled and the Enable CAD Decode box must be checked. Auto-Switch TX Mode to Scramble: If Packet-Based Auto-Descramble is enabled, checking this box will also cause the transmit mode to be switched to scramble when automatic descrambling takes place. This is to ensure that a conversation that is stated in scramble mode remains in scramble mode even if the user receiving the initial transmission fails to switch their transmit mode to scramble. Unlike the receive mode, the transmit mode does not switch to clear automatically. The user must manually switch the mode to clear if transmitting in the clear mode is desired after an auto-switch. Tone-Based Auto-Descramble: If automatic descrambling is desired Midian recommends using the Packet-Based Auto-Descramble, as the tone based auto-descramble takes up about 1/3 of the voice band and results in lower audio quality. The Tone-Based Auto-Descramble is only available in the VS1200-SM1G and cannot be used with VOX or ANI muting. 24 These fields set how the switch is used (short press, long press or double press) and for which function (Lone Worker enable, Lone Worker Reset, Emergency On/Off, etc.). Trunking Delay Input > Active Polarity: This sets whether the unit needs an active low or active high indication from the radio to indicate a trunked channel has been established. This is currently not available. Trunking Delay Input > Debounce: If checked the unit will require a continuous active state for 30 msec before accepting the Trunking Delay Input. This is currently not available. 25 Tones > Beep Volume: Adjust the slider for the desired beep volume. This level is expressed as a percentage of max voice audio level. Tones > Over-The-Air-Signal Modulation: Adjust the slider for the desired signaling modulation level. This level is expressed as a percentage of max voice audio level. 26 AUDIO ALIGNMENT This section describes how to determine and set the audio levels. The procedures below can be used to approximate the response of the internal microphone or another speaker mic accessory. These measurements must be taken within 15 seconds of powering the scrambler on. This is because the scrambler may enter power saving mode after that time. Measurements made while the scrambler is in power saving mode will not be valid. 1. A method for controlling transmitter modulation is required for accurate measurements in the TX mode. A small speaker held in place near the microphone by a rubber band can serve this purpose in most cases. Use a sine-wave generator to inject a 1000 Hz tone into the speaker. Adjust the output of the sine wave generator so that the transmitter produces 60% of rated modulation while PTT is pressed. 2. Leaving the generator output set to the same level, install the SM-1 microphone with the same set up as above. Press PTT and using a communications monitor, observe the modulation level. 3. In the programming software, adjust MIC Out to obtain 60% modulation. 4. Spkr In should be set to 1980 mvpp using 60% modulation. 5. MIC In and Spk Out should be set to 1920 mvpp using 60% modulation. 27 OPERATION The SM1 has three buttons; PTT, Button 1 and Button 2. The PTT button is the larger oblong button, Button 1 is the top round button with one nub and Button 2 is the bottom round button with two nubs. PTT Button: The PTT button is used to send a PTT command to the radio to cause the radio to transmit and send the ANI. Button 1 and Button 2: Button 1 and Button 2 are momentary buttons that can be programmed for Scramble On/Off, Next Key, Lone Worker On/Off, Lone Worker Reset and Emergency ANI. The functions can be selected by a short press, long press (press and hold for 1.5 seconds) or double press. Scramble On/Off: Pressing the assigned button in the programmed manner (i.e. short press, long press) will toggle the scrambler between clear and scramble mode. The speaker will emit a medium tone followed by a high tone to indicate scramble mode and a medium tone followed by a low tone to indicate clear mode. Next Key: Pressing the assigned button in the programmed manner (i.e. short press, long press) will toggle the scrambler to the next code if programmed for multiple codes. The speaker will emit a number of beeps corresponding to the code number being selected. Lone Worker On/Off: Pressing the assigned button in the programmed manner (i.e. short press, long press) will turn the Lone Worker feature on and off. When enabled the unit must have user interaction (i.e. PTT press, movement or Lone Worker Reset button press) within the programmed amount of time otherwise the unit will send the Emergency ANI. Lone Worker Reset: Pressing the assigned button in the programmed manner (i.e. short press, long press) will reset the Lone Worker feature. The Lone Worker feature can also be reset by pressing the PTT or the accelerometer detecting motion (if programmed). Emergency ANI: Pressing the assigned button in the programmed manner (i.e. short press, long press) will cause the unit to send the programmed Emergency ANI. Man-Down (Accelerometer): If programmed for Emergency ANI, Lone Worker or both and the unit does not detect motion for a programmed amount of time, the unit will key and generate the Emergency ANI. The movement detection threshold is programmable. ANI Encode: When the PTT button is pressed and/or released, the unit will assert the PTT Output and send the programmed ANI tones to the radio. ENI Encode: When button programmed for Emergency ANI is pressed, or the Lone Worker or Man-Down features are activated, the unit will assert the PTT Output and send the programmed Emergency ANI and the voice message to the radio. 28 Decode Functions: Query: When the speaker mic receives a Query command from the CAD-800 it will transpond back indicating if it is currently enabled or disabled. Polling: When the speaker mic receives a Polling command from the CAD-800 it will transpond back to the CAD with the unit’s last location fix. Selective Call: The unit is capable of receiving three types of selective calls; individual, group and all. The individual call is based on the group ID and unit ID. The group call is based on only the group ID. The all call is for all units within the system. The unit will transpond back to the CAD-800 only on the individual call. The ring tones consist of 50 msec of 627 Hz & 1320 Hz dual tone alternating with 50 msec of 627 Hz 1670 Hz dual tone. The individual call ring consists of one long warble tone that lasts 1.6 seconds with a 4 second gap between rings. The group call ring consists of a double warble tone (600 msec on, 400 msec off, 600 msec on) with a 4 second gap between rings. The all call ring consists of a triple warble tone (400 msec on, 200 msec off, 400 msec on, 200 msec off, 400 msec on) with a 4 second gap between rings. Radio Disable & Radio Enable: If a radio becomes lost or stolen or the user does not pay for access, the speaker microphone can be “disabled”, so it will no longer key the radio or pass receive audio from the radio. When disabled it will still respect Query, Polling and Spy commands. If the radio is found it can then be Spy (Remote Monitoring): When the Spy command is received by the unit it will PTT the radio and pass audio from the microphone to the radio for transmission. The length of time of this transmission is programmable for 15 seconds, 30 seconds, 45 seconds or 60 seconds. Emergency Acknowledge: If the unit is programmed to send the Emergency ANI continuously or for multiple times, the receipt of the Emergency Acknowledge command from the CAD-800 will cause the unit to stop the emergency sequence and no longer send Emergency ANIs. 29 TECHNICAL NOTES Radio Compatibility: Midian has taken the utmost care to ensure the unit integrates with the radio with minimal impact to the features of the radio. However, some features may not be available in the radio when this product is used. If a feature is not available, please contact Midian to see if the feature can be added. Power Save: In order to limit the impact the unit has on the battery life, Midian has implemented a power save function. When in power save mode, several actions can bring the unit out of power save. These are button presses, COR or VOX. Button Presses: When the PTT, Button 1 or Button 2 is pressed the unit will come out of power save mode. COR: When the COR Input sees activity on the channel the unit will come out of power save mode. Using the COR power save function is preferred over VOX power save. If using the COR detect, then the VOX detect is not available. Note: Most portable radios do not offer COR detection on the speaker mic port, so it will be necessary to use VOX detection. VOX: When the scrambler sees audio on the channel the unit will come out of power save mode. If using the VOX detect, then the COR detect is not available. ANI Muting: If ANI muting is enabled and the sensitivity is too low, the packet will not be muted. If the packet is not muted, it will not be decoded. 30 BATTERY INFORMATION Battery Information: The rechargeable and replaceable battery is a 3.7 V 1200 mAh Lithium Ion Polymer type. Safety Instructions: Please follow the following warnings listed below to avoid possible hazards from the improper use of batteries and to ensure correct and safe use.               Do not short-circuit the battery as it may generate heat. To avoid short-circuiting, do not let the battery come in contact with metal objects at any time, especially when transporting. Do not put the battery into a fire, as it may swell or explode. Do not use near any type of heat source. If the battery leaks electrolyte or emits a strange smell, discontinue use and move the battery away from the heat source. Do not solder the battery. Do not alter or disassemble the battery. Do not remove the battery’s cover or jacket. Do not deform the battery by applying pressure. Do not throw, hit, drop, fold or impact the battery. Do not penetrate the battery with any sharp objects. Do not subject the battery to any mechanical shocks. Do not submerge the battery in water, or any type of liquid. Do not expose the battery to any type of water, such as rain or moisture, as it might heat, corrode, or impair its function. Do not connect the battery with reversed positive (+) and negative (-) terminals. Do not charge the battery with the polarities reversed, as it may swell or explode. Do not let electrolyte come into contact with the skin, eyes or clothing. If contact with the skin or eyes occurs, immediately seek help from a doctor. Use always the battery without any modifications to the unit. Do not take the battery out, and try to do serial or parallel connection of batteries. Keep the battery out of reach of babies and children to avoid any accidents. Although rechargeable, the battery has a limited life-span. Replace when usage time between charges becomes short. Cover the terminals with insulating tape before proper disposal. If there are any problems with the battery, immediately put the battery in a safe place and contact Midian. Safety Handling for Transporter:  Quarantine: Packages that are crushed, punctured or torn open to reveal the contents should not be transported. Such packages should be isolated until the shipper has been consulted, provided with instructions and, if appropriate, arranged to have the product inspected and repacked. 31 DISCLAIMER Emergency Location: Midian intends its GPS speaker microphones to be used as an aid in locating users in distress. It is not a lifesaving device and should not be relied upon as such. The GPS speaker microphone is not intended to reduce the risks of loss, damage to property or injury to persons. While the GPS speaker microphone may be used by first responders, rescue personnel and other people who may put themselves into dangerous conditions in the course of their work, Midian does not represent or warrant to the customer that using the GPS speaker microphone can or will prevent or reduce any injury or loss in the field. The GPS speaker microphone is not meant to replace safety or lifesaving equipment and is meant only to supplement the use of proper safety practices while in the field. Certain conditions may decrease the GPS speaker microphone’s range or accuracy and may inhibit or prevent the operation of the GPS speaker microphone. These conditions may include, but are not limited to, sources of electrical interference, extreme temperatures, smoke and water. GPS Accuracy: GPS Accuracy is influenced by many factors, including the number of satellites in view, atmospheric conditions, noisy radio signal, obstructions to the signal, etc. Obstructions to the signal can include buildings, tunnels, terrain and others. Interference factors can result in an error of the displayed GPS location up to 10 meters or more. However, GPS is typically accurate up to 7.8 meters (25.6 feet) 95% of the time. To get the most accuracy from the GPS, the ideal conditions are when the GPS satellites and the receiver have a clear view of each other and with no interference. MIDIAN CONTACT INFORMATION MIDIAN ELECTRONICS, INC. 2302 East 22nd Street Tucson, Arizona 85713 USA Toll-Free: 1-800-MIDIANS Main: 520-884-7981 E-mail: [email protected] Web: www.midians.com 32 3 4 5 OPTION NOTE: Y : INSTALLED * : NOT INSTALLED C18 .1u FOR NOISE CANCELLING OPTION CNMIC RP1 R52 R79 R80 C79 C46 C88 Y 10K 100K 4.7K 2.2K .22u * 220p R57 47K SPK DEBUG LTR COR C47 560p 1 + 560p U9 R49 * +3.3V D S R83 10K C33 .001u 100p C32 10u L11 1.1K 5 R65 100K ENA R68 2R 5 13 C10 100p 12 R3 27K C90 220p R60 2R SPKVEN* Q7 BSS C53 .47u C91 + 220p 5 - 7 U2:2 + LMV324 29 26 C55 .1u 27 C62 .1u 28 C63 .1u 19 22 43 C69 2.2u 20 17 C61 2.2u 24 C13 .47u D3 SB1 R12 * C51 .1u R56 1.2M R50 * C44 .1u R54 1K L10 1.1K C71 10u 5 U4 C16 39p LMV324 C20 .01u R16 * D6 SB1 Q2 P2 B_CRG+ R14 1.2M C37 .47u R15 75K 3 2 C8 * 220p C9 .1u + U2:1 - 1 TP8 R91 5.6K R72 10K 3 2 R70 10K C94 R13 36K R67 C12 2.2u C73 1u C72 2.2u VAN1 NOTE: * = NOT INSTALLED LMV324 R34 18K +3.3V R94 5.6K R33 100K 22K 4 B2 +3.3V 3 100p SD IN- VO+ TH U11 GND IN+ TPA6203 BYP VO- 5 9 C58 100p 2 7 3 8 C57 100p R71 22K R38 * B1 VAN2 C86 2.2u 4 A R85 180R - U8:1 + 1 LMV324 R92 1K L13 1.1K D 2 REV: 2014-10-03 5 APPR J2 D8 3.3V C27 .0022u AWS 2 4 5 3 1 U13 3157 1 MIDIAN ELECTRONICS, INC. DESIGN: CJS 1 C39 DATE: 2010-10-06 UPD BY: 3 C35 .47u C56 10u .0022u 4 TP4 C11 560p C26 1 +3.3V C78 .47u R86 4.3K R42 * C74 .47u SPK C D7 SB1 P2:1 P2:2 P2:3 P2:4 P2:5 P2:6 SPK+V R17 * R75 10K1% MIC J1:3 C43 220p R31 56K TP7 R18 4.7K VAN1 2 VX_REVERT Q8 BSS C64 .1u B C41 560p D4 SB1 30 3 38 48 2 1 R76 10K1% 6 R4 8.2K C54 * 14 U2:4 C3 * C5 .0068u R63 47K 7 +3.3VA 6 1 23 L3 47 1.1K 4 U3 PTT J1:7 PTT +3.3V +3.3V R6 56K L9 1.1K U5 VAN1 +3.3VDD 5 39 +3.3V 4 PROG OUT R90 1.2M C70 .1u - - PROG IN 11 R11 10K1% R9 10K1% C2 .0068u TP20 1 3.3VEN 39 40 41 42 2 8 3 U2:3 10 + LMV324 R59 100K RES C60 10u +3.3V VAN1 +3.3VDD C67 .47u OUT 3 9 P3 45 18 8 C89 220p C66 .47u 2 IN1 R8 10K J1:1 Q5 BSS BATT+ 38 C59 .01u FUTURE HORN R36 100K 10 C7 .1u L17 1.1K GND C96 C34 560p 1 Q3 BSS 21 SEE BATTERY OPTION TABLE 4 VR2 5206 L12 1.1K B+ J1:6 GND J1:4 TP17 2 R74 22R1W ENA R89 120K J1:10 BATT+ 46 R7 10K +3.3VA GND 3 C6 560p TP6 C4 .1u OUT * A SDIN 11 IN1 C84 47p 2 1 * 12 40 C77 * +3.3V RES VR3 5206 0R D10 SB1 6 26 2 300K R84 C25 * 10u 4 L16 1.1K * 1 R66 22K R88 36K 45 1 7 OUT ENA - 3 2 R20 4.7K 2 3 * 6 3.3VEN ALL OTHERS Y 100K 22R1W 2 VDD R64 1.2M L8 D9:2 3 1.1K A6 C85 .01u 5 IN1 2.7K * C30 10u 3 Battery Connector 1 C75 47u 0R 4 + D9:1 A6 3 35 9 37 48 36 16 15 U12 1 + R87 1K 7 B1 Li-Ion 6 R27 R28 180K 2 VR4 5206 PORTABLE RADIO BATTERY OPTION SEE TABLE TP5 5 R26 100K L7 1.1K C19 100p 4 8 VSS C36 100p R1 5.6K SHDN FB GND SNS * 47u SM1GM * 1 NOTE: P1 ON THIS PRODUCT REQUIRES A STRAIGHT THROUGH INTERFACE CABLE +3.3VA 34 6 STAT 3 C24 100p 4 1 TAP * 1 RES R2 470R VIN Vertex 350/420 Y 2 Y1 LM321 44 OUT +3.3V L6 1.1K 22 21 41 GND U7 MCP73831T 3 5 8 C95 100p 19 Q6 B25 2 VBAT PROG SPKVEN* 2.2K Y 180K R53 10K C68 .1u 7 5 BATT+ R25 * 12p R82 200K SPK+V 4 B_CRG+ VR1 MIC2954 0R C15 +3.3V C22 .01u ERR HORN * Y +3.3V 17 20 SJ4 1 VDD +3.3V 32 KHz BUTTON HANG UP R23 0R 29 4 2 C49 100p 4 49 47 4 4.7u C42 .1u 3 2 * C65 10u SPK HB Vertex 800/900 * +3.3VDD TP12 PL DIS J1:2 D2 GRN 36 C81 2.2u 1 C31 100p * Y R48 0R VAN1 G Q4 5460 C14 2.2u 12 LM321 AGC 50dB SPK2 U8:4 R22 * 14 15 13 5 9 25 35 4 R81 82K R62 10K 2.2K 44 - 13 ANALOG GND REF C82 .1u SW3:1 PTT GND P4:8 GND P4:7 GND P4:2 P4:5 GPIO R21 0R 34 C80 3 .0033u + 5 C17 100p 27K SM1G 6 C48 2.2u 2 R45 200K 22K * D5 SB1 13 2 C40 .022u Vertex 820/920 Y * 100K 22R1W S 14 VAN2 C93 100p VBAT P4:6 P4:4 RX_A PAD1 R24 47K +3.3V C21 L15 1.1K P4 - GPS OPTION VCC P4:1 P4:3 TX_A L5 1.1K 10 18 R44 4.7M VAN1 SPK GND SPKJ1:8 R40 47K LMV324 R37 47K C28 100p SPK HI SPK+ J1:9 C1 11 46 C38 .1u L14 1.1K R50 * * SDOUT C23 2.2u 33 2 SW1:1 EMERG L4 1.1K 24 VX_REVERT 1 B R48 U7 47u 5 4 8 27 D1 SB1 R77 47K 37 SJ3 2 VAN2 C92 1u R12 R74 * GND VDD R93 * 3 1 C29 100p SW2:1 MODE R10 P4 R28 * 180K SM1M 2 HORN 28 R10 * +3.3V 1 6 4 3 10 11 5 2 DVDD AVDD IADDR0 U10 GND 7455 GND 43 R52 0R RP1 * CS SO SI SCK INT1 INT2 P1:6 C87 220p 4 3 - 3 2 Q9 * 1 COR/LTR J1:5 1 R43 100K 7 12 13 14 8 9 P1:5 C79 * R79 * 12 P1:4 C83 220p + LMV324 8 U8:3 10 + LMV324 RADIOS +3.3V ACCELEROMETER OPTION 23 MIC AMP 9 2 7 U8:2 11 MIC - P1:3 1 8 7 3 4 VCC HOLD WP GND 31 R55 2.4K CS SO SI SCK C45 2.2u LOW BATT DETECT P1:2 SCLK C50 .22u 1 2 5 6 1 R58 2.2K 5 R46 91K R80 * U10 U12 * Y * * * Y * Y * 4 6 R51 100K C76 10u U1 R78 * R41 100K 31 30 32 33 R61 0R 14 R47 100K VOICE OPTION U6 26081 5 C46 470p +3.3V R19 47K 32 C88 * +3.3V P1:1 SDATA +3.3V R73 1K D 42 16 BATT+ 2 U6 * * Y * Y 6 CNMIC * SERIES B1 C75 D2 SM1 Y * Y U3 Y * * * * +3.3V 25 1 SERIES VR2 VR3 VS1200 Y Y VS1000 * * SVR-1/VM-3 * * TS-120/TS-130 * * * * VAE-1 +3.3V +3.3V MIC NOISE CANCEL OPTION A C C52 10u +3.3V 6 * 2 * 1 VS-SM1-SERIES SCHEMATIC Copyright © 2014 REV E-1 SPK1 SPEAKER DOCUMENT NAME CP SHEET PROJECT NUMBER 1 of 1 6 7708