Crest audio LH1 SPECIFICATIONS

Full Range

Other LH series loudspeakers

SERIES

Features

Description

• Smooth frequency response characteristics

• 600 Watt continuous rated woofer

• 150 Watt continuous rated compression driver

• 90 degree x 40 degree constant directivity horn with 2" throat

• High power crossover components

• Neutrik Speakon

®

input connectors, with automatic biamp switching

• 15 degree trapezoidal cabinet design

• Recessed steel handles with comfortable round handgrip

• Heavy gauge metal grill with black, powder-coat finish

• High-impact resistant polypropylene cabinet corners

• Rugged stand adapter

• Exterior grade 3/4" 7-ply all poplar APA-1 plywood

• Scuff and weather resistant, black Hammer-Head™ finish

The Crest Audio LH

TM

1 is a two-way speaker system comprised of one 15"
high power woofer, one 2" exit compression driver coupled to a 90° x 40° con­stant directivity horn.

As with all LH

TM

full-range speakers, this unit can be driven in full-range or
biamp mode simply by plugging into the desired jack on the input plate.The
LH

TM

1 has a trapezoidal shaped cabinet, rather than the more traditional rec­tangular shape.This allows cabinet arrays to be constructed more easily.This
shape also reduces the build-up of internal standing waves. Standing waves
are internal amplitude peaks that occur due to reflections within the cabinet
at frequencies related to the internal square dimensions of the cabinet. The
trapezoidal shape resists the formation of standing waves by causing the
internal reflections to cancel rather than reinforce each other.This ensures a
minimum of mid-bass and mid-range coloration.

Crest Audio’s protection circuit for mid and high frequency driver protection is
included as a standard feature.The input signal is routed through the protec­tion circuit in both full-range and bi-amp modes of operation. When high fre­quency drive level to the LH

TM

1 exceeds predetermined thresholds, the pro­tection circuit is temporarily engaged. This subtly decreases the signal level
applied to the high frequency driver so that it will not be damaged due to long­term overpowering. Large amplitude, short duration transients will not be
attenuated by the protection circuit and thus have the potential to damage the
driver.The protection circuit is realized through the use of a dynamically resis­tive component in conjunction with a switched padding circuit.

An additional feature in the crossover circuitry is a mid-range contour switch.
This switch allows a choice between flat (HIGH position) and mildly attenuat­ed (NORMAL position) mid-range frequencies. The position of this switch is
purely dependent on venue and personal sonic taste. As a suggestion, the
NORMAL position is more suitable for live (highly reflective, long reverb time)
venues. Whereas, the HIGH position is more suitable in venues where the
reverb time is relatively short.This switch is located on the rear panel input plate
and is actuated with a suitable tool such as a flat screwdriver tip, or door key.

LHTM1

Loudspeaker

LHTM1

LHTM2
LHTM3
LH

TM

4
LHTM5M
LHTM6M
LH

TM

7M

600W

1,000W

500W

1,200W

400W
500W

1,000W

1,200W

2,000W
1,000W
2,400W

800W
1,000W
2,000W

2,400W

4,000W
2,000W
4,800W
1,600W
2,000W
4,000W

Power Handling Continuous Program Peak

Specifications

LHTM1 Loudspeaker

Power Handling

There are many different approaches to
power handling ratings. Crest Audio rates
this unit’s system power handling using a
modified form of the AES Standard 2-

1984. Utilizing audio band limited (20 Hz ­20 kHz) pink noise with peaks over four
times the RMS level, this strenuous test
signal assures the user that every portion
of this system can withstand high inpact
music. The test signal contains large
amounts of very low frequency energy,
effectively simulating the frequency con­tent of live music situations. High frequen­cy test signals expose the speaker system
to synthesized tones that may extend
beyond audibility. This rating is contingent
on having a minimum of 3 dB of amplifier
headroom available so as to ensure that
clipping does not occur.

Frequency Response

This measurement is useful in determin­ing how accurately a given unit repro­duces an input signal. The frequency
response of the LH1 (Figure 1) is meas­ured at a distance of 1 meter using a 1
Watt (into the nominal impedance) swept­sine input signal.

Directivity

Beamwidth is derived from the -6 dB
points from the polar plots which are
measured in a whole space anechoic
environment. Q and Directivity Index
(Figures 3 & 4) are plotted for the on-axis
measurement position. These are specifi­cations that provide a reference to the
coverage characteristics of the unit.These
parameters provide insight for proper
placement and installation in the chosen
environment.

20 50 100 200 500 1k 2k 5k 10k 20k

Frequency (Hz)

1

10

100

Q & Directivity Index

Q

Figure 4

20

10

Di

0

20 50 100 200 500 1k 2k 5k 10k 20k

Frequency (Hz)

30

40

60

80

100

140

180

300

360

Beamwidth (Degrees)

Beamwidth

Vertical

Horizontal

Figure 3

20 50 100 200 500 1k 2k 5k 10k 20k

Frequency (Hz)

1

2

3

5

10

20

30

50

100

Impedance

Z

(

)

Figure 2

Lower Curve: Midrange Contour = High, Upper Curve: Midrange Contour = Norm

20 50 100 200 500 1k 2k 5k 10k 20k

Frequency (Hz)

70

80

90

100

110

dB SPL (re 20 Pa)

Amplitude Response (1W 1m On-Axis)

Figure 1

Lower Curve: Midrange Contour = Norm, Upper Curve: Midrange Contour = High