Lectrosonics LMBC1 Wireless Microphone Transmitter User Manual LMBman
Lectrosonics Inc Wireless Microphone Transmitter LMBman
User Manual
INSTRUCTION MANUAL LMb Synthesized UHF Belt-Pack Transmitter Featuring Digital Hybrid WirelessÂŽ Technology US Patent 7,225,135 Quick Start Steps 1) Install good batteries and turn power on (see pages 6 and 7). 2) Set compatibility mode to match the receiver (see page 9). 3) Connect signal source and adjust input gain for optimum modulation level (see page 9). 4) Set StepSize and frequency to match receiver (see page 10). Also see receiver manual for scanning procedure. 5) Turn on the receiver and verify RF and audio signals are present (see receiver manual). Fill in for your records: Serial Number: Purchase Date: Rio Rancho, NM, USA www.lectrosonics.com LMb Table of Contents Introduction.............................................................................3 About Digital Hybrid Wireless ...............................................3 Frequency Agility...................................................................3 Wide-Band Deviation ............................................................3 Servo Bias Input and Wiring .................................................3 LMb Block Diagram ...............................................................4 DSP-controlled Input Limiter .................................................4 No Pre-Emphasis/De-Emphasis ...........................................4 Pilot Tone Squelch ................................................................4 Battery Installation .................................................................5 Belt Clips .................................................................................5 Operating Instructions ...........................................................6 Battery Status LED Indicators ...............................................6 Powering On in Operating Mode ...........................................6 Powering On in Standby Mode .............................................7 Powering Off .........................................................................7 Navigating Menus .................................................................7 Locking/Unlocking Changes to Settings................................7 Power Menu ..........................................................................7 Selecting Programmable Switch Functions...........................8 Main Window Indicators ........................................................8 IR (infrared) Sync ..................................................................9 Selecting the Compatibility (Compat) Mode..........................9 Connecting the Signal Source ..............................................9 Adjusting the Input Gain........................................................9 Selecting Step Size .............................................................10 Selecting Frequency ...........................................................10 Selecting Frequency Using Two Buttons .............................10 Helpful Features on Receivers ............................................10 About Overlapping Frequency Blocks .................................11 Selecting Audio Polarity (Phase).........................................11 Adjusting LCD Backlight .....................................................11 RF ON/OFF on the Menu....................................................11 Selecting Battery Type ........................................................11 Restoring Default Settings ..................................................11 5-Pin Input Jack Wiring ........................................................12 Microphone Cable Termination for Non-Lectrosonics Microphones .............................13 Input Jack Wiring for Different Sources .............................14 Compatible Wiring for Both Servo Bias Inputs and Earlier Transmitters: .....................................................14 Simple Wiring - Can ONLY be used with Servo Bias Inputs:........................................................14 Microphone RF Bypassing ..................................................15 Line Level Signals ...............................................................15 Wiring Diagram for MI39A Instrument Cable ......................15 Accessories ..........................................................................16 Troubleshooting....................................................................17 SpeciďŹcations and Features ................................................18 Service and Repair ...............................................................19 Returning Units for Repair ..................................................19 Consumer Alert for US Users - FCC Order DA 10-92 Most users do not need a license to operate this wireless microphone system. Nevertheless, operating this microphone system without a license is subject to certain restrictions: the system may not cause harmful interference; it must operate at a low power level (not in excess of 50 milliwatts); and it has no protection from interference received from any other device. Purchasers should also be aware that the FCC is currently evaluating use of wireless microphone systems, and these rules are subject to change. For more information, call the FCC at 1-888- CALL-FCC (TTY: 1-888-TELL-FCC) or visit the FCCâs wireless microphone website at www.fcc.gov/cgb/wirelessmicrophones. To operate wireless microphone systems at power greater than 50mW, you must qualify as a Part 74 user and be licensed. If you qualify and wish to apply for a license go to: http://www.fcc.gov/Forms/Form601/601.html LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Introduction The design of the LMb transmitter delivers the advanced technology and features of Digital Hybrid WirelessÂŽ in a Lectrosonics belt-pack transmitter at a modest cost. Digital Hybrid WirelessÂŽ combines a 24-bit digital audio chain with an analog FM radio link to eliminate a compandor and its artifacts, yet preserve the extended operating range and noise rejection of the ďŹnest analog wireless systems. DSP âcompatibility modesâ allow the LMb to also be used with a variety of analog receivers by emulating the compandors found in earlier Lectrosonics analog wireless and IFB receivers, and certain receivers from other manufacturers (contact the factory for details). The housing is a rugged, machined aluminum package with removable, stainless steel wire belt clip. The input jack is a standard Lectrosonics 5-pin type for use with electret lavaliere mics, dynamic mics, musical instrument pickups and line level signals. The LEDs on the top panel allow quick and accurate level settings without having to view the receiver. The unit is powered by two AA batteries. The antenna is a super-rugged, permanently attached 1/4 wavelength design made of ďŹexible galvanized steel cable. The switching power supplies in the LMb provide constant voltages to the transmitter circuits from the beginning to the end of battery life, with output power remaining constant over the life of the battery. The input ampliďŹer uses an ultra low noise op amp for quiet operation. Input gain is adjustable over a 44 dB range, with a DSP -controlled dual envelope input limiter to cleanly handle signal peaks over 30 dB above full modulation. About Digital Hybrid Wireless All wireless links suffer from channel noise to some degree, and all wireless microphone systems seek to minimize the impact of that noise on the desired signal. Conventional analog systems use compandors for enhanced dynamic range, at the cost of subtle artifacts (known as âpumpingâ and âbreathingâ). Wholly digital systems defeat the noise by sending the audio information in digital form, at the cost of some combination of power, bandwidth, operating range and resistance to interference. The Lectrosonics Digital Hybrid WirelessÂŽ system overcomes channel noise in a dramatically new way, digitally encoding the audio in the transmitter and decoding it in the receiver, yet still sending the encoded information via an analog FM wireless link. This proprietary algorithm is not a digital implementation of an analog compandor but a technique which can be accomplished only in the digital domain. Since the RF link between transmitter and receiver is FM, channel noise will increase gradually with increased operating range and weak signal conditions, however, the Digital Hybrid Wireles system handles this situation elegantly with rarely audible audio artifacts as the receiver approaches its squelch threshold. In contrast, a purely digital system tends to drop the Rio Rancho, NM audio suddenly during brief dropouts and weak signal conditions. The Digital Hybrid WirelessÂŽ system simply encodes the signal to use a noisy channel as efďŹciently and robustly as possible, yielding audio performance that rivals that of purely digital systems, without the power, noise and bandwidth problems inherent in digital transmission. Because it uses an analog FM link, Digital Hybrid WirelessÂŽ enjoys all the beneďŹts of conventional FM wireless systems, such as excellent range, efďŹcient use of RF spectrum, and long battery life. Frequency Agility Frequency selection is provided in 100 kHz or 25 kHz steps with up to 3072 channels available covering three standard Lectrosonics 25.6 MHz blocks. Frequencies are displayed on the LCD in MHz and in a hex code used with earlier Lectrosonics equipment. Wide-Band Deviation Deviation has a direct effect on the dynamic range and signal to noise ratio of an FM system. The greater the deviation, the wider the dynamic range and the better the signal to noise ratio. In the Digital Hybrid WirelessÂŽ mode, the system operates with a maximum of +/-75 kHz of deviation. The resulting 180 kHz of occupied bandwidth just ďŹts inside the government speciďŹed spectral mask of 200 kHz. In order to make this possible, an advanced, DSP-controlled limiter is used to prevent signal peaks from exceeding the maximum allowed bandwidth, but not cause distortion. The result of all this is that the audio quality is outstanding, rivaling a hard-wired microphone. The system delivers a very wide dynamic range, and can handle loud signal peaks without distortion. Servo Bias Input and Wiring The LMb input preamp is a unique design that delivers audible improvements over conventional transmitter inputs. The transmitters are easier to use and much harder to overload. It is not necessary to introduce pads on some mics to prevent overload of the input stage, divide the bias voltage down for some low voltage mics, or reduce the limiter range at minimum gain settings. Two different microphone wiring schemes are available to simplify and standardize the conďŹguration. SimpliďŹed 2-wire and 3-wire conďŹgurations provide several arrangements designed for use only with servo bias inputs to take full advantage of the preamp circuitry. Other wiring schemes are compatible with Servo Bias and conventional inputs. A line level input wiring provides an extended frequency response with an LF roll-off at 35 Hz for use with instruments and line level signal sources. LMb DSP-controlled Input Limiter Pilot Tone Squelch The transmitter employs a digitally-controlled analog audio limiter prior to the analog-to-digital converter. The limiter has a range greater than 30 dB for excellent overload protection. A dual release envelope makes the limiter acoustically transparent while maintaining low distortion. It can be thought of as two limiters in series, connected as a fast attack and release limiter followed by a slow attack and release limiter. The limiter recovers quickly from brief transients, so that its action is hidden from the listener, but recovers slowly from sustained high levels to keep audio distortion low and preserve short term dynamic changes in the audio. The squelch system in a receiver is a method of muting the audio when the RF signal conditions are too poor to produce usable audio. While not all squelch systems work the same way, the goal is always the same: to discard noise and unusable audio. The Digital Hybrid Wireless system employs a DSPgenerated supersonic tone (pilot tone), using it as a kind of signature, so the receiver can mute even strong signals that arenât from the appropriate transmitter. The pilot tone also helps to ensure that the receiver is quiet when the transmitter is turned on and off. 256 different pilot tones provide reliable operation in multi-channel wireless systems. A different tone is generated every 100 kHz across the tuning range of the system, so that a tone is not repeated until it is 25.6 MHz above or below the previous one. No Pre-Emphasis/De-Emphasis Because the signal to noise ratio of the Digital Hybrid WirelessÂŽ system is so high, there is no need for conventional pre-emphasis (HF boost) in the transmitter and de-emphasis (HF roll off) in the receiver. Thus, the potential distortion problems associated with pre-emphasis and de-emphasis are eliminated. LMb Block Diagram +5V Servo Bias Supply Bias Voltage 0, 2 or 4V Input Preamp HI/Lo Pass Filter AUDIO Gain Adj Shunt Limiter D-A Converter A-D Converter Input Jack I2S I2S Encoded Audio and Pilot Tone (2) AA Batteries Switching Power Supply DSP Clock Limiter Control Oscillator Tricolor Power LED Microprocessor Bicolor Modulation LEDs AUDIO Micro Clock LMb Transmitter Keypad Oscillator Buffer Amp and Filter PLL Ref Voltage Controlled Oscillator Phase Locked Loop Filters (3) Driver Control Final Amplifier LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Battery Installation The transmitter is powered by two AA batteries. We recommend using alkaline, lithium, or rechargeable batteries for longest life. Standard zinc-carbon batteries marked âheavy-dutyâ or âlong-lastingâ are not adequate. The battery status circuitry compensates for the difference in voltage drop between alkaline and lithium batteries across their usable life, so itâs important to select the correct battery type in the menu. close but the unit will not operate. The battery contacts can be cleaned with alcohol and a cotton swab, or a clean pencil eraser. Be sure not to leave any remnants of the cotton swab or eraser crumbs inside the compartment. Because rechargeable batteries run down quite abruptly, using the Power LED to verify battery status will not be reliable. However, it is possible to track battery status using the Battery Timer function available in Lectrosonics Digital Hybrid WirelessÂŽ receivers. Push outward on the Battery Compartment Door and lift it to open. Series connection plate Contact springs Belt Clips The wire belt clip may be removed by pulling the ends out of the holes in the sides of the case. Use pliers to grasp the wire and avoid scratching the surface of the housing. Pliers also help when installing the clip. An optional spring-loaded, hinged belt clip (model number BCSLEBN) is also available. This clip is attached by removing the plastic hole cap on the back of the housing and mounting the clip with the supplied screw. Insert the batteries according to the markings inside the battery compartment. Battery polarity is marked inside the compartment If the batteries are inserted incorrectly, the door will Rio Rancho, NM LMb Operating Instructions 614.4 - 691.1 MHz IR Sync Port FCCID:DBZLMBC1 S/N XXXXX Lectrosonics, Inc. Model: LMBC1 Made in U.S.A. IC: 8024A-LMBC1 RF Indicator Battery Status LED Battery icon Reserved for Future Use Input Jack 5A Power/Function LED Menu navigation buttons Modulation LEDs BAT Programmable Switch Power Button Belt clip mounting hole Move switch toward the white dot to turn it on -10 Slide door outward to open battery door -20 -20 -20 -10 -40 BAT 623.400 Battery Status LED Indicators Alkaline, lithium or rechargeable batteries can be used to power the transmitter. The type of batteries in use are selectable in a menu on the LCD. When alkaline or lithium batteries are being used, the LED labeled BATT on the keypad glows green when the batteries are good. The color changes to red when the they are nearing the end of life. When the LED begins to blink red, there will be only a few minutes remaining. The Power/Function LED on the top panel will mirror the keypad LED unless the programmable switch is set to the Mute or Talkback mode, and the switch is turned on. The exact point at which the LEDs turn red will vary with battery brand and condition, temperature and power consumption. The LEDs are intended to simply catch your attention, not to be an exact indicator of remaining time. A weak battery will sometimes cause the LEDs to glow green immediately after the transmitter is turned on, but it will soon discharge to the point where the LED will turn red or the unit will turn off completely. Rechargeable batteries give little or no warning when they are depleted. If you wish to use these batteries in the transmitter, you will need to manually keep track of the operating time to prevent interruptions caused by dead batteries. Start with a fully charged battery, then measure the time it takes for the Power LED to go out completely. NOTE: The battery timer feature in many Lectrosonics receivers is very helpful in measuring battery runtime when using rechargeable batteries. Refer to the receiver instructions for details on using the timer. Powering On in Operating Mode Press and hold the Power Button for several seconds until a counter on the LCD progresses from 1 through 3, followed by a display of the model, ďŹrmware version, frequency block and compatibility mode. Hold for Rf On ...3 LMB V1.00 Blk. 19 Hybrid b 19 51 494.500 -40 -20 When you release the button, the unit will be operational with the RF output turned on and the Main Window displayed. Only the second and third screens will appear when the programmable function switch is used to turn on the power. LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Powering On in Standby Mode Locking/Unlocking Changes to Settings A brief press of the Power Button , releasing it before the counter has reached 3, will turn the unit on with the RF output turned off. In this Standby Mode the menus can be browsed to make settings and adjustments without the risk of interfering with other wireless systems nearby. RF indicator blinks Hold for Rf On ...1 Release Power Button before the counter reaches 3 to enter standby mode b 19 51 -20 NOTE: Also see the section entitled Power Menu for the AutoOn feature. Powering Off From any screen, power can be turned off by selecting Pwr Off in the power menu, holding the Power Button in and waiting for the countdown, or with the programmable switch (if it is conďŹgured for this function). If the power button is released, or the top panel switch is turned back on again before the countdown is completed, the unit will remain turned on and the LCD will return to the same screen or menu that was displayed previously. NOTE: If the programmable switch is in the OFF position, power can still be turned on with the power button. If the programmable switch is then turned on, a brief message will appear on the LCD. Navigating Menus The LCD and keypad interface makes it easy to browse the menus and make the selections for the setup you need. When the unit is powered up in either the operating or the standby mode, press MENU/SEL on the keypad to enter a menu structure on the LCD. Use the and arrow buttons to select the menu item. Then press the MENU/SEL button to enter the menu. Gain Freq. MuteSw Compat Gain 25 -40 -20 The prompt in the upper right corner may display one or both arrows, depending upon what adjustment can be made. If the changes are locked, a small padlock symbol will appear. Rio Rancho, NM Locked? Gain 25 No Yes -40 -20 A small padlock symbol will appear on adjustment screens when changes have been locked. After settings and adjustments are made, press the power button again to turn the unit off. StepSiz Phase Locked Rf On? 494.500 -40 Powering Off . . . Changes to the settings can be locked. When changes are locked, several controls and actions can still be used: ภภภภภภภภภภภภภภภภภภภภภภmenu or removing the batteries. ภภภPower Menu Pressing the power button when the unit is turned on will display a menu with several options: ภResume - returns to the previous mode and screen ภRf On? - enters a screen to enable the operating or standby modes ภAutoOn? - allows the unit to automatically power back up after a power failure or when new batteries are installed; works in the operating mode only ภPwr Off - turns the unit off irrevocably Resume Rf On? AutoOn? Pwr Off Resume Rf On? AutoOn? Pwr Off Resume and Pwr Off will execute the command immediately The other two menu items will open a screen asking for a Yes or No answer. Resume Rf On? AutoOn? Pwr Off Rf On? Resume Rf On? AutoOn? Pwr Off AutoOn? No Yes No Yes LMb Selecting Programmable Switch Functions The programmable switch on the top panel can be conďŹgured using the menu to provide several functions: ภPower - turns the power on and off ภMute - mutes the audio when switched on ภTalkBk (talkback) - redirects the audio to a different output channel on the receiver (with receivers that offer this function) Changing the step size never changes the frequency. It only changes the way the user interface works. If the frequency is set to a fractional increment between even 100 kHz steps and the step size is changed to 100 kHz, the hex code will be replaced by two asterisks on the main screen and the frequency screen. Frequency set to fractional 25 kHz step, but step size changed to 100 kHz. ภ(none) - disables the switch MuteSw MuteSw Power Mute b 19 494.525 Main Window Indicators The Main Window displays the block number, Standby or Operating mode, operating frequency, audio level, battery status and programmable switch function. When the frequency step size is set at 100 kHz, the LCD will look like the following. Operating mode b 19 51 MUTE 494.500 Battery status Programmable switch function Frequency (MHz) -40 -20 494.525 Audio level When the frequency step size is set to 25 kHz, the hex number may include a fraction. b 19 51 MUTE 494.500 -40 -20 Mute function enabled but not active When the switch is turned on, the mute icon appearance will change, the word MUTE will blink at the bottom of the display, and the power/function LED will blink blue. b 19 51 MUTE 494.500 <âMUTEâ> Main Window will blink the word MUTE when the audio is muted Top Panel LED will blink blue when the audio is muted BAT Use the and arrow buttons to select the desired function or disable the switch NOTE: The programmable switch will continue to operate whether or not keypad changes are locked. Frequency (hex setting) -20 (none) Block number -20 If the programmable switch function is set for Mute, the Main Window will indicate that the function is enabled. MuteSw TalkBk b 19 MUTE -40 MuteSw Freq. -10 Gain Freq. MuteSw Compat If the programmable switch function is set for Talkback, the Main Window will indicate that the function is enabled but not active. b 19 51 TB 494.500 -40 -20 Talkback function is enabled but not active Fraction -40 -20 The TB icon will change when Talkback is active b 19 51 TB 494.500 -40 -20 BAT 3/4 = .075 MHz When the programmable switch is turned on, the talkback icon appearance will change and the power/function LED will glow blue. Top Panel LED will glow blue when Talkback is active -20 1/2 = .050 MHz Note that the frequency has increased by 25 kHz from the upper example. -10 1/4 = .025 MHz b 19 51 41 MUTE 494.525 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Connecting the Signal Source IR (infrared) Sync The opening on the side panel is an IR port for quick setup using a receiver with this function available. IR Sync will transfer the settings for frequency, step size and compatibility mode from the receiver to the transmitter. Refer to your receiver manual for details. IR Port Adjusting the Input Gain The two bicolor Modulation LEDs on the control panel and keypad provide a visual indication of the audio signal level entering the transmitter. The LEDs will glow either red or green to indicate modulation levels as shown in the following table. 614.4 - 691.1 MHz FCCID:DBZLMBC1 S/N XXXXX Lectrosonics, Inc. Model: LMBC1 Made in U.S.A. IC: 8024A-LMBC1 Selecting the Compatibility (Compat) Mode When used with a Lectrosonics Digital Hybrid WirelessÂŽ receiver, the best audio quality will be achieved with the system set to the Hybrid compatibility mode. Compat Gain Freq. MuteSw Compat Compatibility modes are as follows: Receiver Models LCD menu item ภภภภภภŕ¸ŕ¸ ภภภภภภภภHybrid ภภภภภภภภภภ100 Series works with Lectrosonics UCR100 analog receivers. 200 Series works with Lectrosonics earlier UCR201/205/210D/211 and UCR195 analog receivers with dual band compandors. Mode 3* works with certain non-Lectrosonics models. Digital Hybrid WirelessÂŽ works with all Lectrosonics Digital Hybrid receivers. The receiver must also be set to the Digital Hybrid compatibility mode. IFB Series works with Lectrosonics IFB R1/R1a analog receivers. Mode 6* works with certain non-Lectrosonics models. Mode 7* works with certain non-Lectrosonics models. ภภภRio Rancho, NM ภภภภ-20 LED -10 LED Less than -20 dB Off Off -20 dB to -10 dB Green Off -10 dB to +0 dB Green Green +0 dB to +10 dB Red Green Greater than +10 dB Red Red It is best to go through the following procedure with the transmitter in the standby mode so that no audio will enter the sound system or recorder during adjustment. 1) With fresh batteries in the transmitter, power the unit on in the standby mode (see previous section Powering On in Standby Mode). 2) Navigate to the Gain setup screen. ภภŽ Signal Level NOTE: Full modulation is achieved at 0 dB, when the â-20â LED ďŹrst turns red. The limiter can cleanly handle peaks up to 30 dB above this point. Hybrid Use the UP and DOWN arrows to select the desired mode, then press the BACK button twice to return to the Main Window. ภMicrophones, line level audio sources and instruments can be used with the transmitter. Refer to the section entitled Wiring Hookups for Different Sources for details on the correct wiring for microphones to take full advantage of the Servo Bias circuitry. ภGain Freq. MuteSw Compat Gain 25 -40 -20 3) Prepare the signal source. Position a microphone the way it will be used in actual operation and have the user speak or sing at the loudest level that occur during use, or set the output level of the instrument or audio device to the maximum level that will be used. 4) Use the and arrow buttons to adjust the gain until the â10 dB glows green and the â20 dB LED starts to ďŹicker red during the loudest peaks in the audio. 5) Once the audio gain has been set, the signal can be sent through the sound system for overall level adjustments, monitor settings, etc. 6) If the audio output level of the receiver is too high or low, use only the controls on the receiver to make adjustments. Always leave the transmitter gain adjustment set according to these instructions, and do not change it to adjust the audio output level of the receiver. LMb Selecting Step Size This menu item allows frequencies to be selected in either 100 kHz or 25 kHz increments. Compat StepSiz Phase Locked StepSiz 100 kHz 25 kHz StepSiz 100 kHz 25 kHz A fraction will appear next to the hex code in the setup screen and in the main window when the frequency ends in .025, .050 or .075 MHz. Freq. b 19 51 b 19 51 41 MUTE 494.525 Fraction appears next to hex code in 25 kHz mode 494.525 If the desired frequency ends in .025, .050 or .075 MHz, the 25 kHz step size must be selected. Normally, the receiver is used to ďŹnd a clear operating frequency. All Lectrosonics Digital Hybrid WirelessÂŽ receivers provide a scanning function to quickly and easily ďŹnd prospective frequencies with little or no RF interference. In other cases, a frequency may be speciďŹed by ofďŹcials at a large event such as the Olympics or a major league ball game. Once the frequency is determined, set the transmitter to match the associated receiver. -40 Hold the MENU/SEL button in, then use the arrow buttons for alternate increments. 100 kHz Mode Freq. b 19 10 MHz steps 51 494.500 The setup screen for frequency selection offers several ways to browse the available frequencies. 25 kHz Mode Freq. b 19 Freq. b 19 51 Press MENU/ SEL to select one of four ďŹelds to make adjustments 494.500 Each ďŹeld will step through the available frequencies in a different increment. The increments are also different in the 25 kHz mode from the 100 kHz mode. Freq. b 19 51 494.500 Freq. b 19 These two ďŹelds step in 25 kHz increments when the step size is 25 kHz and 100 kHz increments when the step size is 100 kHz. Selecting Frequency Using Two Buttons Selecting Frequency Gain Freq. MuteSw Compat -20 10 MHz steps 51 41 494.525 and 1 block steps 1.6 MHz steps to nearest 100 kHz channel 100 kHz steps to next 100 kHz channel 1 block steps 1.6 MHz steps 100 kHz steps Helpful Features on Receivers To aid in ďŹnding clear frequencies, several Lectrosonics receivers offer a SmartTune feature that scans the tuning range of the receiver and displays a graphical report that shows where RF signals are present at different levels, and areas where there is little or no RF energy present. The software then automatically selects the best channel for operation. Lectrosonics receivers equipped with an IR Sync function allow the receiver to set frequency, step size and compatibility modes on the transmitter via an infrared link between the two units. 51 494.500 Freq. b 19 10 These two ďŹelds always step in the same increments Freq. b 19 51 1 block steps 51 494.500 1 MHz steps 494.500 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter About Overlapping Frequency Blocks When two frequency blocks overlap, it is possible to select the same frequency at the upper end of one and the lower end of the other. While the frequency will be the same, the pilot tones will be different, as indicated by the hex codes that appear. In the following examples, the frequency is set to 494.500 MHz, but one is in block 470 and the other in block 19. This is done intentionally to maintain compatibility with receivers that tune across a single block. The block number and hex code must match the receiver to enable the correct pilot tone. RF ON/OFF on the Menu The RF output of the transmitter can be turned off and on with a menu item on the LCD to switch from the standby mode to the operating mode. Backlit Rf On? BatType Default Rf On? No Yes Selecting Battery Type Freq. b 19 Freq. b470 51 F4 494.500 494.500 Make sure the block number and hex code match the receiver setting Selecting Audio Polarity (Phase) Audio polarity can be inverted at the transmitter so the audio can be mixed with other microphones without comb ďŹltering. The polarity can also be inverted at the receiver outputs. Compat StepSiz Phase Locked Phase Pos. Neg. The voltage drop over the life of different batteries varies by type and brand. Be sure to set the correct battery type for accurate indications and warnings. The menu offers alkaline or lithium types. Backlit Rf On? BatType Default BatType Alk. Lith. If you are using rechargeable batteries, it is better to use the timer function on the receiver to monitor the battery life rather than the indicators on the transmitter. Rechargeable batteries maintain a fairly constant voltage across the operating time on each charge and stop working abruptly, so you will have little or no warning as they reach the end of operation. The timer is available on all Lectrosonics Digital Hybrid WirelessÂŽ receivers. Restoring Default Settings This is used to restore the factory settings. Adjusting LCD Backlight For viewing the LCD in dimly lit conditions, the backlight can be turned on continuously or set to turn off automatically after either 30 seconds or 5 minutes. Phase Locked Backlit Rf On? Rio Rancho, NM Backlit Rf On? BatType Default Default settings No Yes Backlit On 30 sec 5 min 11 LMb 5-Pin Input Jack Wiring The wiring diagrams included in this section represent the basic wiring necessary for the most common types of microphones and other audio inputs. Some microphones may require extra jumpers or a slight variation on the diagrams shown. Audio input jack wiring: PIN 1 Shield (ground) for positive biased electret lavaliere microphones. Shield (ground) for dynamic microphones and line level inputs. It is virtually impossible to keep completely up to date on changes that other manufacturers make to their products, thus you may encounter a microphone that differs from these instructions. If this occurs please call our toll-free number listed under Service and Repair in this manual or visit our web site at: www.lectrosonics.com 5V SOURCE MIC 500 Ohm Servo Bias 15uF 200 Ohm VOLTAGE SELECT PIN 4 Bias voltage selector for Pin 3. Pin 3 voltage depends on Pin 4 connection. Pin 4 to Pin 1 = 0 V Pin 4 Open = 2 V Pin 4 to Pin 2 = 4 V 100 Ohm Pin 4 tied to Pin 1: 0 V Pin 4 Open: 2 V Pin 4 to Pin 2: 4 V 30uF GND PIN 3 Microphone level input and bias supply. +5 VDC 1k PIN 2 Bias voltage source for positive biased electret lavaliere microphones that are not using servo bias circuitry and voltage source for 4 volt servo bias wiring. To Audio Amplifier To Limiter Control LINE IN PIN 5 Line level input for tape decks, mixer outputs, musical instruments, etc. 3.3uF 2.7K 10k Backshell with strain relief Insulator TA5F Latchlock Remove strain relief if using dust boot Cable clamp Insert Backshell without strain relief Dust boot (35510) Note: If you use the dust boot, remove the rubber strain relief that is attached to the TA5F cap, or the boot will not ďŹt over the assembly. Installing the Connector: 1) If necessary, remove the old connector from the microphone cable. 2) Slide the dust boot onto microphone cable with the large end facing the connector. 3) If necessary, slide the 1/8-inch black shrink tubing onto the mircrophone cable. This tubing is needed for some smaller diameter cables to ensure there is a snug ďŹt in the dust boot. 4) Slide the backshell over the cable as shown above. Slide the insulator over the cable before soldering the wires to the pins on the insert. 6) If necessary, remove the rubber strain relief from the TA5F backshell by simply pulling it out. 7) Seat the insulator on the insert. Slide the cable clamp over the and of the insulator and crimp as shown on the next page. 8) Insert the assembled insert/insulator/clamp into the latchlock. Make sure the tab and slot align to allow the insert to fully seat in the latchlock. Thread the backshell onto the latchlock. 5) Solder the wires and resistors to the pins on the insert according to the diagrams shown in Wiring Hookups for Different Sources. A length of .065 OD clear tubing is included if you need to insulate the resistor leads or shield wire. 12 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Microphone Cable Termination for Non-Lectrosonics Microphones TA5F Connector Assembly Mic Cord Stripping Instructions VIEW FROM SOLDER SIDE OF PINS 0.15" 0.3" Crimping to Shield and Insulation Strip and position the cable so that the clamp can be crimped to contact both the mic cable shield and the insulation. The shield contact reduces noise with some microphones and the insulation clamp increases ruggedness. Insulation Shield Crimp these ďŹngers to contact the shield Rio Rancho, NM Crimp these ďŹngers to clamp the insulation NOTE: This termination is intended for UHF transmitters only. VHF transmitters with 5-pin jacks require a different termination. Lectrosonics lavaliere microphones are terminated for compatibility with VHF and UHF transmitters, which is different from what is shown here. 13 LMb Input Jack Wiring for Different Sources In addition to the microphone and line level wiring illustrated below, Lectrosonics makes a number of cables and adapters for other situations such as connecting musical instruments (guitars, bass guitars, etc.) to the transmitter. Visit www.lectrosonics.com and click on Accessories, or download the master catalog. A lot of information regarding microphone wiring is also available in the FAQ section of the web site at: www.lectrosonics.com > SUPPORT > FAQs Follow the instructions to search by model number or other search options. Compatible Wiring for Both Servo Bias Inputs and Earlier Transmitters: Fig. 8 Fig. 1 UNBALANCED LINE LEVEL SIGNALS 2 VOLT POSITIVE BIAS 2-WIRE ELECTRET SLEEVE PIN SHIELD 1.5 k AUDIO 3.3 k Compatible wiring for microphones such as Countryman E6 headworn and B6 lavaliere. TA5F PLUG PIN SHIELD AUDIO LINE LEVEL RCA or 1/4â PLUG TIP For signal levels up to 3V (+12 dBu) before limiting. Fully compatible with 5-pin inputs on other Lectrosonics transmitters such as the LM and UM Series. A 20k ohm resistor can be inserted in series with Pin 5 for an additional 20 dB of attenuation to handle up to 30V (+32 dBu). TA5F PLUG See Line Level Signals on next page Fig. 2 4 VOLT POSITIVE BIAS 2-WIRE ELECTRET Fig. 8 UNBALANCED LINE LEVEL SIGNALS SLEEVE Most common type of wiring for lavaliere mics. Fully compatible with 5-pin inputs on Lectrosonics transmitters such as the LM and UM Series. PIN SHIELD AUDIO LINE LEVEL RCA or 1/4â PLUG Fig. 3 TIP For signal levels up to 3V (+12 dBu) before limiting. Fully compatible with 5-pin inputs on other Lectrosonics transmitters such as the LM and UM Series. A 20k ohm resistor can be inserted in series with Pin 5 for an additional 20 dB of attenuation to handle up to 30V (+32 dBu). DPA MICROPHONES (Danish Pro Audio miniature models) TA5F PLUG This wiring is for DPA lavalier and headset microphones. NOTE: The resistor value can range from 3k to 4k ohms. Simple Wiring - Can ONLY be used with Servo Bias Inputs: Fig. 4 2 VOLT NEGATIVE BIAS 2-WIRE ELECTRET 2.7 k SHIELD AUDIO Compatible wiring for microphones such as negative bias TRAM models. NOTE: The resistor value can range from 2k to 4k ohms. Fig. 5 4 VOLT POSITIVE BIAS 3-WIRE ELECTRET WITH EXTERNAL RESISTOR SHIELD Used for 3-wire lavaliere microphones that require an external resistor such as the Sanken COS-11. Fig. 9 PIN 2 VOLT POSITIVE BIAS 2-WIRE ELECTRET TA5F PLUG Simplified wiring for microphones such as Countryman B6 Lavalier and E6 Earset models and others. NOTE: This Servo Bias wiring is not compatible with earlier versions of Lectrosonics transmitters. Check with the factory to confirm which models can use this wiring. Fig. 10 2 VOLT NEGATIVE BIAS 2-WIRE ELECTRET DRAIN (BIAS) SOURCE (AUDIO) This wiring is fully compatible with 5-pin inputs on Lectrosonics transmitters such as the LM and UM Series. This is the wiring for the Lectrosonics M152 lavaliere microphone. Simplified wiring for microphones such as negative bias TRAM. NOTE: This Servo Bias wiring is not compatible with earlier versions of Lectrosonics transmitters. Check with the factory to confirm which models can use this wiring. Fig. 11 Fig. 6 4 VOLT POSITIVE BIAS 3-WIRE ELECTRET LO-Z MICROPHONE LEVEL SIGNALS XLR JACK For low impedance dynamic mics or electret mics with internal battery or power supply. NOTE: This Servo Bias wiring is not compatible with earlier versions of Lectrosonics transmitters. Check with the factory to confirm which models can use this wiring. Insert 1k resistor in series with pin 3 if attenuation is needed 14 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Line Level Signals Microphone RF Bypassing When used on a wireless transmitter, the microphone element is in the proximity of the RF coming from the transmitter. The nature of electret microphones makes them sensitive to RF, which can cause problems with microphone/transmitter compatibility. If the electret microphone is not designed properly for use with wireless transmitters, it may be necessary to install a chip capacitor in the mic capsule or connector to block the RF from entering the electret capsule. Some mics require RF protection to keep the radio signal from affecting the capsule, even though the transmitter input circuitry is already RF bypassed. If the mic is wired as directed, and you are having difďŹculty with squealing, high noise, or poor frequency response, RF is likely to be the cause. The best RF protection is accomplished by installing RF bypass capacitors at the mic capsule. If this is not possible, or if you are still having problems, capacitors can be installed on the mic pins inside the TA5F connector housing. Refer to the diagram below for the correct locations of capacitors. Use 330 pF capacitors. Capacitors are available from Lectrosonics. Please specify the part number for the desired lead style. Leaded capacitors: P/N 15117 Leadless capacitors: P/N SCC330P All Lectrosonics lavaliere mics are already bypassed and do not need any additional capacitors installed for proper operation. 2-WIRE MIC Capacitors next to mic capsule 3-WIRE MIC SHIELD SHIELD The normal wiring for line level signals is: ภภภภภภภภภภภภภภภภThis allows signal levels up to 3V RMS to be applied without limiting. If more headroom is needed, insert a 20 k resistor in series with pin 5. Put this resistor inside the TA5F connector to minimize noise pickup. Line Level Normal Wiring See Fig. 8 on previous page Line Level More Headroom (20 dB) Wiring Diagram for MI39A Instrument Cable The MI39ARA and MI39AST instrument cable assemblies allow an optimum match between musical instrument pickups and Lectrosonics transmitters with 5-pin input connectors. The cables are wired to provide an extended low frequency response with a roll-off at 35 Hz. Note: This cable is prewired and cannot be ďŹeld modiďŹed. The cable is available in two conďŹgurations, MI39ARA (right angle 1/4â plug) and MI39AST (straight 1/4â plug). SLEEVE AUDIO SHIELD SHIELD Preamp AUDIO AUDIO CAPSULE TA5F CONNECTOR CAPSULE Capacitors in TA5F connector Rio Rancho, NM 1/4 " PLUG BIAS TA5F CONNECTOR TIP Preamp is located inside the connector shell PWR AUDIO PIN TA5F PLUG 15 LMb Accessories BCSLEBN Wire belt clip M152/5P Lavaliere microphone; omnidirectional MI33PRA Instrument cable; passive type for use with very high output pickups; right angle 1/4â plug MI33PST Instrument cable; passive type for us with very high output pickups; straight 1/4â plug MI39ARA Instrument cable; active type for use with most instrument pickups; right angle 1/4â plug MI39AST Instrument cable; active type for use with most instrument pickups; straight 1/4â plug MC35 Line level adapter cable; XLR-F to TA5F; 37â length MC41 Dynamic mic level adapter cable; XLR-F to TA5F; 37â length 16 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Troubleshooting It is important that you follow these steps in the sequence listed. Symptom: Possible Cause: Transmitter Battery LED off when Power Switch âONâ 1. Batteries are inserted incorrectly. 2. Batteries are low or dead. No Transmitter Modulation LEDs when Signal Should be Present 1. 2. 3. 4. 5. 6. Receiver Indicates RF But No Audio 1. Audio source or cable connected to transmitter is defective. Try using an alternate source or cable. 2. Make sure the compatibility mode is the same on transmitter and receiver. 3. Ensure musical instrument volume control is not set to minimum. 4. Check for correct pilot tone indication on the receiver. See item on page 11 entitled About Overlapping Frequency Blocks. Receiver RF Indicator Off 1. Ensure that the transmitter and receiver are set to the same frequency, and that the hex code matches. 2. Transmitter not turned on, or battery is dead. 3. Receiver antenna missing or improperly positioned. 4. Operating distance is too great. 5. Transmitter may be set to the Standby Mode. See page 7. No Sound (Or Low Sound Level), Receiver Indicates Proper Audio Modulation 1. Receiver output level set too low. 2. Receiver output is disconnected; cable is defective or miswired. 3. Sound system or recorder input is turned down. Distorted Sound 1. Transmitter gain (audio level) is too high. Check Modulation LEDs on transmitter and receiver while distortion is being heard. 2. Receiver output level may be mismatched with the sound system or recorder input. Adjust output level on receiver to the correct level for the recorder, mixer or sound system. 3. Transmitter and receiver may not be set to the same compatibility mode. Some mis-matched combinations will pass audio. 4. RF interference. Reset both transmitter and receiver to a clear channel. Use scanning function on receiver if available. Wind Noise or Breath âPopsââ 1. Reposition microphone, or use a larger windscreen, or both. 2. Omni-directional mics produce less wind noise and breath pops than directional types. Hiss and Noise -- Audible Dropouts 1. 2. 3. 4. Excessive Feedback (With Microphone) 1. Transmitter gain (audio level) too high. Check gain adjustment and/or reduce receiver output level. 2. Microphone too close to speaker system. 3. Microphone is too far from userâs mouth. Rio Rancho, NM Gain control turned all the way down. Batteries are inserted incorrectly. Check power LED. Mic capsule is damaged or malfunctioning. Mic cable damaged or miswired. Instrument Cable damaged or not plugged in. Musical instrument output level set too low. Transmitter gain (audio level) far too low. Receiver antenna missing or obstructed. Operating distance too great. RF interference. Reset both transmitter and receiver to a clear channel. Use scanning function on receiver if available. 5. Musical instrument output set too low. 6. Microphone capsule picking up RF noise. See item on page 15 entitled Microphone RF Bypassing. 17 LMb SpeciďŹcations and Features Operating Frequencies: Block A1: 470.100 - 537.575 Block B1: 537.600 - 614.375 Block C1: 614.400 - 691.175 Block D1: 691.200 - 767.975 (export only) Frequency Selection Steps: Selectable; 100 kHz or 25 kHz RF Power output: 50 mW Pilot tone: 25 to 32 kHz; 5 kHz deviation (Digital Hybrid mode) Frequency Stability: Âą 0.002% Deviation: Âą 75 kHz max. (Digital Hybrid mode) Spurious radiation: 60 dB below carrier Equivalent input noise: â120 dBV (A-weighted) Input level: Nominal 2 mV to 300 mV, before limiting Greater than 1V maximum, with limiting. ภภภภภภภภภภInput limiter: DSP controlled, dual envelope âsoftâ limiter with greater than 30 dB range Gain control range: 44 dB; digital control ภภภภภภภภภ-20, -10, 0 and +10 dB referenced to full modulation ภภภภภภภภภภภภpower, mute, talkback or none (off) function ภภภภภภภภinterface for power on/off and all setup and conďŹguration controls Audio Input Jack: Switchcraft 5-pin locking (TA5F) Antenna: Galvanized steel, ďŹexible wire Battery: Two AA; alkaline, lithium, NiMH rechargeable ภภภŕ¸ŕ¸ ภภภภภŕ¸ŕ¸ ภภภภภภภŕ¸ŕ¸ ภnew batteries fully charged Weight: 5.8 ounces (141 grams), including lithium AA batteries and wire belt clip Dimensions: 3.2 x 2.4 x .9 in. (81 x 61 x 20 mm) Emission Designator: 180KF3E Audio Performance (Digital Hybrid mode) ภภภภภภภภภภภภภภภภภภLow frequency roll-off: Mic input: -3 dB at 70 Hz, slope steepens at lower frequencies THD: 0.2% (typical) SmartNR No Limiting w/Limiting SNR at receiver output: OFF 103.5 108.0 Note: The dual envelope âsoftâ NORMAL 107.0 111.5 limiter provides exceptionally good 108.5 113.0 handling of transients using variable FULL attack and release time constants. Once activated, the limiter compresses 30+ dB of transmitter input range into 4.5 dB of receiver output range, thus reducing the measured ďŹgure for SNR without limiting by 4.5 dB Specifications subject to change without notice The FCC requires that the following statement be included in this manual: This device complies with FCC radiation exposure limits as set forth for an uncontrolled environment. This device should be installed and operated so that its antenna(s) are not co-located or operating in conjunction with any other antenna or transmitter. 18 LECTROSONICS, INC. Digital Hybrid Wireless Belt-Pack Transmitter Service and Repair If your system malfunctions, you should attempt to correct or isolate the trouble before concluding that the equipment needs repair. Make sure you have followed the setup procedure and operating instructions. Check the interconnecting cables and then go through the Troubleshooting section in this manual. We strongly recommend that you do not try to repair the equipment yourself and do not have the local repair shop attempt anything other than the simplest repair. If the repair is more complicated than a broken wire or loose connection, send the unit to the factory for repair and service. Donât attempt to adjust any controls inside the units. Once set at the factory, the various controls and trimmers do not drift with age or vibration and never require readjustment. There are no adjustments inside that will make a malfunctioning unit start working. LECTROSONICSâ Service Department is equipped and staffed to quickly repair your equipment. In warranty repairs are made at no charge in accordance with the terms of the warranty. Out-of-warranty repairs are charged at a modest ďŹat rate plus parts and shipping. Since it takes almost as much time and effort to determine what is wrong as it does to make the repair, there is a charge for an exact quotation. We will be happy to quote approximate charges by phone for out-of-warranty repairs. Returning Units for Repair For timely service, please follow the steps below: A. DO NOT return equipment to the factory for repair without ďŹrst contacting us by email or by phone. We need to know the nature of the problem, the model number and the serial number of the equipment. We also need a phone number where you can be reached 8 A.M. to 4 P.M. (U.S. Mountain Standard Time). B. After receiving your request, we will issue you a return authorization number (R.A.). This number will help speed your repair through our receiving and repair departments. The return authorization number must be clearly shown on the outside of the shipping container. C. Pack the equipment carefully and ship to us, shipping costs prepaid. If necessary, we can provide you with the proper packing materials. UPS is usually the best way to ship the units. Heavy units should be âdouble-boxedâ for safe transport. D. We also strongly recommend that you insure the equipment, since we cannot be responsible for loss of or damage to equipment that you ship. Of course, we insure the equipment when we ship it back to you. Lectrosonics USA: Mailing address: Lectrosonics, Inc. PO Box 15900 Rio Rancho, NM 87174 USA Shipping address: Lectrosonics, Inc. 581 Laser Rd. Rio Rancho, NM 87124 USA Web: www.lectrosonics.com E-mail: sales@lectrosonics.com Telephone: (505) 892-4501 (800) 821-1121 Toll-free (505) 892-6243 Fax Lectrosonics Canada: Mailing Address: 49 Spadina Avenue, Suite 303A Toronto, Ontario M5V 2J1 Rio Rancho, NM Telephone: (416) 596-2202 (877) 753-2876 Toll-free (877-7LECTRO) (416) 596-6648 Fax E-mail: Sales: colinb@lectrosonics.com Service: joeb@lectrosonics.com 19 LIMITED ONE YEAR WARRANTY The equipment is warranted for one year from date of purchase against defects in materials or workmanship provided it was purchased from an authorized dealer. This warranty does not cover equipment which has been abused or damaged by careless handling or shipping. This warranty does not apply to used or demonstrator equipment. Should any defect develop, Lectrosonics, Inc. will, at our option, repair or replace any defective parts without charge for either parts or labor. If Lectrosonics, Inc. cannot correct the defect in your equipment, it will be replaced at no charge with a similar new item. Lectrosonics, Inc. will pay for the cost of returning your equipment to you. This warranty applies only to items returned to Lectrosonics, Inc. or an authorized dealer, shipping costs prepaid, within one year from the date of purchase. This Limited Warranty is governed by the laws of the State of New Mexico. It states the entire liablility of Lectrosonics Inc. and the entire remedy of the purchaser for any breach of warranty as outlined above. NEITHER LECTROSONICS, INC. NOR ANYONE INVOLVED IN THE PRODUCTION OR DELIVERY OF THE EQUIPMENT SHALL BE LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, CONSEQUENTIAL, OR INCIDENTAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THIS EQUIPMENT EVEN IF LECTROSONICS, INC. HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. IN NO EVENT SHALL THE LIABILITY OF LECTROSONICS, INC. EXCEED THE PURCHASE PRICE OF ANY DEFECTIVE EQUIPMENT. This warranty gives you specific legal rights. You may have additional legal rights which vary from state to state. & % $ $ # o, ) ((( ! '%$&$# & $" &! &! '%$&$# & $" 12 August 2014 LMBman.indd
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