HSP 2

General Description

High-quality permanently polarized condenser headmic with omni-directional pick-up pattern, designed for professional "hands free" applications.  The adjustable neckband is visually unobtrusive and very comfortable to wear.  The twelve available HSP 2 variants differ in color, size and connector.

Features
	Individually adjustable to all head sizes
	Neckband design keeps the microphone clear from shirt-collar or clothing
	Extremely thin microphone boom (Ø 1.1 mm), can be attached to the left or right side
	Microphone boom is adjustable in length and angle
	Patented Umbrella Diaphragm protects the microphone against sweat
	Connection cable can easily be interchanged
	All metal parts coated in a physical vapour deposition process
	Can also be used with the cardioid HSP 4 boom microphone
Delivery Includes
	Boom microphone
	Neckband
	Connection cable
	Plastic transport case, foam-lined with cut-outs
	Caps for altering the frequency response
	Operating instructions

<scRIPT language=Javascript> document.write (''); tmpGlossar = get_glossarData("Richtcharakteristik") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Frequenzgang") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Nennimpedanz") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Min. terminating impedance") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Sensitivity in free field, no load (1kHz)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Maximum sound pressure level (passiv)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Equivalent noise level") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Current consumption") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Operating voltage (stand alone)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Cable length") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Diameter") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Diameter") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Weight") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++</scRIPT>

Technical Data
	' + ( ( tmpGlossar == '' ) ? 'Richtcharakteristik' : 'Richtcharakteristik' ) + '		omnidirectional
	' + ( ( tmpGlossar == '' ) ? 'Frequenzgang' : 'Frequenzgang' ) + '		20...20 000 Hz
	' + ( ( tmpGlossar == '' ) ? 'Nennimpedanz' : 'Nennimpedanz' ) + '		(@ 1 kHz) 1000 Ohm
	' + ( ( tmpGlossar == '' ) ? 'Min. terminating impedance' : 'Min. terminating impedance' ) + '		4700 Ohm
	' + ( ( tmpGlossar == '' ) ? 'Sensitivity in free field, no load (1kHz)' : 'Sensitivity in free field, no load (1kHz)' ) + '		2 mV/Pa
	' + ( ( tmpGlossar == '' ) ? 'Maximum sound pressure level (passiv)' : 'Maximum sound pressure level (passiv)' ) + '		150 dB
	' + ( ( tmpGlossar == '' ) ? 'Equivalent noise level' : 'Equivalent noise level' ) + '		28 dB(A)
	' + ( ( tmpGlossar == '' ) ? 'Current consumption' : 'Current consumption' ) + '		ca. 250 µA
	' + ( ( tmpGlossar == '' ) ? 'Operating voltage (stand alone)' : 'Operating voltage (stand alone)' ) + '		4,5-15 V
	' + ( ( tmpGlossar == '' ) ? 'Cable length' : 'Cable length' ) + '		1,6 m
	' + ( ( tmpGlossar == '' ) ? 'Diameter' : 'Diameter' ) + '		microphone head 4,8 mm
	' + ( ( tmpGlossar == '' ) ? 'Diameter' : 'Diameter' ) + '		boomarm 1,1 mm
	' + ( ( tmpGlossar == '' ) ? 'Weight' : 'Weight' ) + '		6,5 g (without cable)
	Richtcharakteristik		omnidirectional
	Frequenzgang		20...20 000 Hz
	Nennimpedanz		(@ 1 kHz) 1000 Ohm
	Min. terminating impedance		4700 Ohm
	Sensitivity in free field, no load (1kHz)		2 mV/Pa
	Maximum sound pressure level (passiv)		150 dB
	Equivalent noise level		28 dB(A)
	Current consumption		ca. 250 µA
	Operating voltage (stand alone)		4,5-15 V
	Cable length		1,6 m
	Diameter		microphone head 4,8 m
	Diameter		boomarm 1,1 mm
	Weight		6,5 g (without cable)

HSP 4

General Description

High-quality permanently polarized condenser headmic with cardioid pick-up pattern, designed for professional "hands-free" applications.  The adjustable neckband is visually unobtrusive and very comfortable to wear.  The twelve available HSP 4 variants differ in color, size and connector.

Features
	Excellent feedback rejection
	Microphone includes a detachable cap as integral wind/popshield
	Individually adjustable to all head sizes
	Neckband design keeps the microphone clear from shirt-collar or clothing
	Twist-proof microphone boom (Ø 2.0 mm), can be attached to the left or right side
	Microphone boom is adjustable in length and angle
	Flexible gooseneck section
	Connection cable can easily be interchanged
	All metal parts coated in a physical vapour deposition process
	Can also be used with the omni-directional HSP 2 boom microphone
Delivery Includes
	Boom microphone
	Neckband
	Connection cable
	Plastic transport case, foam-lined with cut-outs
	Operating instructions

<scRIPT language=Javascript> document.write (''); tmpGlossar = get_glossarData("Pick-up pattern") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Frequency response") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Nominal impedance") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Min. terminating impedance") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Sensitivity in free field, no load (1kHz)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Maximum sound pressure level (passiv)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Equivalent noise level") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Current consumption") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Operating voltage (stand alone)") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Cable length") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Diameter") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Diameter") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++ document.write (''); tmpGlossar = get_glossarData("Weight") ; document.write ('' ) ;document.write ('' ) ; document.write ('' ) ; techRow++</scRIPT>

Technical Data
	' + ( ( tmpGlossar == '' ) ? 'Pick-up pattern' : 'Pick-up pattern' ) + '		cardioid
	' + ( ( tmpGlossar == '' ) ? 'Frequency response' : 'Frequency response' ) + '		40...20 000 Hz
	' + ( ( tmpGlossar == '' ) ? 'Nominal impedance' : 'Nominal impedance' ) + '		(@ 1 kHz) 1000 Ohm
	' + ( ( tmpGlossar == '' ) ? 'Min. terminating impedance' : 'Min. terminating impedance' ) + '		4700 Ohm
	' + ( ( tmpGlossar == '' ) ? 'Sensitivity in free field, no load (1kHz)' : 'Sensitivity in free field, no load (1kHz)' ) + '		4 mV/Pa
	' + ( ( tmpGlossar == '' ) ? 'Maximum sound pressure level (passiv)' : 'Maximum sound pressure level (passiv)' ) + '		150 dB
	' + ( ( tmpGlossar == '' ) ? 'Equivalent noise level' : 'Equivalent noise level' ) + '		37 dB(A)
	' + ( ( tmpGlossar == '' ) ? 'Current consumption' : 'Current consumption' ) + '		ca. 250 µA
	' + ( ( tmpGlossar == '' ) ? 'Operating voltage (stand alone)' : 'Operating voltage (stand alone)' ) + '		4,5-15 V
	' + ( ( tmpGlossar == '' ) ? 'Cable length' : 'Cable length' ) + '		1,6 m
	' + ( ( tmpGlossar == '' ) ? 'Diameter' : 'Diameter' ) + '		microphone head 8,4 mm
	' + ( ( tmpGlossar == '' ) ? 'Diameter' : 'Diameter' ) + '		boomarm 2,4 mm
	' + ( ( tmpGlossar == '' ) ? 'Weight' : 'Weight' ) + '		9,2 g (without cable)
	Pick-up pattern		cardioid
	Frequency response		40...20 000 Hz
	Nominal impedance		(@ 1 kHz) 1000 Ohm
	Min. terminating impedance		4700 Ohm
	Sensitivity in free field, no load (1kHz)		4 mV/Pa
	Maximum sound pressure level (passiv)		150 dB
	Equivalent noise level		37 dB(A)
	Current consumption		ca. 250 µA
	Operating voltage (stand alone)		4,5-15 V
	Cable length		1,6 m
	Diameter		microphone head 8,4 m
	Diameter		boomarm 2,4 mm
	Weight		9,2 g (without cable)