Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz)

Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz)

Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz)

B&H # SHQLX1485X52 MFR # QLXD14/85-X52
Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz)

Show MoreLess

Close

Now Viewing:

Special Order
Expected availability: 7-10 business days

Product Highlights

  • 20 Hz to 20 kHz Frequency Range
  • 24-Bit Digital Audio
  • Network Control
  • AES-256 Encryption
  • Built-In Switching Diversity
  • Automatic Channel Scan
  • More than 60 Channels per Frequency Band
  • Includes WL185 Microphone
  • Power Supply is Included
  • Includes Rackmount Hardware
Show moreShow less

Mic Kit: WL185

WL183

Special Order

WL184

Special Order

WL185 WL93

Special Order

Frequency: X52: 902 to 928

G50: 470 to 534 H50: 534 to 598

Special Order

J50: 572 to 636

Discontinued

L50: 632 to 696

Discontinued

VHF V50: 174 to 216

New Item - Special Order

X52: 902 to 928

This item is noncancelable and nonreturnable

$0.00 Tax Collected Outside NY and NJ

You Pay: $1,076.00

Add to Wish List Item in Wish List
  • 1Description

For capturing audio, the QLXD14/85 Lavalier Wireless Microphone System by Shure is a good choice to get the job done. It can be used for mid-size events and installations in businesses, hotels, government offices, schools, houses of worship, live performance spaces, and more. It features 24-bit digital audio, network control, and AES-256 encryption.

The QLX-D wireless system is built with switching diversity and automatic channel scan, and has IR sync capabilities to make finding an open frequency quick. Featuring a frequency range of 20 Hz to 20 kHz, it offers more than 60 available channels per frequency band. The receiver and beltpack also feature a backlit LCD display to allow for navigation though the menus and controls. With clearly defined performance the QLX-D wireless delivers clean audio and provides professional features for demanding live sound events and installations.

The QLXD14/85 system includes a QLXD4 receiver, QLXD1 Transmitter with WL185 microphone, PS23 power supply, two 1/2 wave antennas, two 2' BNC cables with bulkhead adapters, a zipper bag, two AA Alkaline batteries, and rackmount hardware.

300 feet (100 meters) line-of-sight operating range
120 dB dynamic range
Digital predictive switching diversity receiver to capture the clearest sound
64 MHz tuning bandwidth
Up to 17 compatible systems per 6 MHz TV band, and 22 systems per 8 MHz band
Easy pairing of transmitters and receivers over IR scan and sync
Automatic channel scan
Selectable display mode showing group/channel, frequency, or battery runtime
Rugged metal construction
UPC: 042406468763
In the Box
Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz)
  • QLXD4 Digital Wireless Receiver (X52: 902 to 928 MHz)
  • QLXD1 Wireless Bodypack Transmitter (902 - 928 MHz)
  • WL185 Cardioid Lavalier Microphone
  • Limited 2-Year Warranty
  • Table of Contents
    • 1Description
    System Specifications
    RF Carrier Frequency Range X52: 902 to 928 MHz
    Working Range 330' (100 m)
    Note: Actual range depends on RF signal absorption, reflection and interference
    RF Tuning Step Size: 25 kHz, varies by region
    Image Rejection Greater than 70 dB, typical
    RF Sensitivity -97 dBm at 10-5 BER
    Latency Less than 2.9 ms
    Audio Frequency Response QLXD1: 20 Hz - 20 kHz (±1 dB)
    Audio Dynamic Range System Gain @ +10: Greater than 120 dB, A-weighted, typical
    Total Harmonic Distortion (THD) -12 dBFS Input, System Gain @ +10: Less than 0.1%
    Polarity System Audio: Positive pressure on microphone diaphragm produces positive voltage on pin 2 (with respect to pin 3 of XLR output) and the tip of the 1/4" (6.35 mm) output
    Operating Temperature Range 0 to 122°F (-18 to 50°C)
    Note: Battery characteristics may limit this range
    Storage Temperature Range -20 to 165°F (-29 to 74°C)
    Note: Battery characteristics may limit this range.
    Receiver
    Housing Steel
    Power Requirement 12 VDC @ 0.4 A, supplied by external power supply (tip positive)
    RF Input Spurious Rejection: Greater than 80 dB, typical
    Connector Type: BNC
    Impedance: 50 ohms
    Audio Output Gain Adjustment Range: -18 to +42 dB in 1 dB steps
    Configuration: 1/4" (6.35 mm), Impedance balanced (Tip=audio, Ring=no audio, Sleeve=ground)
    XLR: Balanced (1=ground, 2=audio +, 3=audio -)
    Impedance 1/4" (6.35 mm), 100 ohms (50 ohms Unbalanced)
    XLR: 100 ohms
    Full Scale Output: 1/4" (6.35 mm), +12 dBV
    XLR: LINE setting= +18 dBV, MIC setting= -12 dBV Mic/Line Switch: 30 dB pad
    Phantom Power Protection: 1/4" (6.35 mm), Yes
    XLR: Yes
    Networking Network Interface: Single Port Ethernet 10/100 Mbps
    Network Addressing Capability: DHCP or Manual IP address
    Maximum Ethernet Cable Length: 328' (100 m)
    Dimensions (H x W x D) 1.63 x 7.75 x 5.94" (41 x 197 x 151 mm)
    Weight 1.71 lb (777 g)
    Bodypack Transmitter
    Housing Cast aluminum
    Mic Offset Range 0 to 21 dB (in 3 dB steps)
    Battery Type Shure SB900 rechargeable Li-Ion or AA batteries 1.5 V
    Battery Runtime At 10 mW:
    Shure SB900: up to 10 hours
    Alkaline: up to 9 hours
    Audio Input Connector: 4-pin male mini connector (TA4M)
    Configuration: Unbalanced
    Impedance: 1 MOhm
    Maximum Input Level 1 kHz at 1% THD: 8.5 dBV (7.5 Vpp)
    Preamplifier Equivalent Input Noise (EIN) System Gain Setting ≥ +20: -120 dBV, A-weighted, typical
    RF Output Connector: SMA
    Antenna Type: 1/4 wave
    Impedance: 50 Ω
    Occupied Bandwidth: Less than 200 kHz
    Modulation Type: Shure proprietary digital
    Power: 1 mW or 10 mW
    Varies by region
    Dimensions (H x W x D) 3.38 x 2.57 x 0.92" (86 x 65 x 23 mm)
    Weight 4.9 oz (138 g), without batteries
    Microphone
    Model WL185 with TA4F connector

    Shure QLXD14/85 Lavalier Wireless Microphone System (X52: 902 to 928 MHz) Review

    Be the first to review this item
    See any errors on this page? Let us know.