netcdf sgp915rwptempmomA5.a0.20040331.000000 {
dimensions:
	time = UNLIMITED ; // (690 currently)
	height = 22 ;
variables:
	int base_time ;
		base_time:string = "31-Mar-2004 00:00:00 GMT" ;
		base_time:long_name = "Base time in Epoch" ;
		base_time:units = "Seconds since 1970-1-1 0:00:00 0:00" ;
	double time_offset(time) ;
		time_offset:long_name = "Time offset from base_time" ;
		time_offset:units = "seconds since 31-Mar-2004 00:00:00 0:00" ;
		time_offset:uncertainty = "" ;
		time_offset:valid_min = 0.f ;
		time_offset:valid_max = 86400.f ;
		time_offset:resolution = 1.f ;
		time_offset:missing_value = -9999.f ;
	float elevation(time) ;
		elevation:long_name = "Elevation angle of beam" ;
		elevation:units = "deg" ;
		elevation:uncertainty = "" ;
		elevation:valid_min = 0.f ;
		elevation:valid_max = 90.f ;
		elevation:resolution = 0.1f ;
		elevation:missing_value = -9999.f ;
	float azimuth(time) ;
		azimuth:long_name = "Azimuth angle of Beam " ;
		azimuth:units = "deg" ;
		azimuth:uncertainty = "" ;
		azimuth:valid_min = 0.f ;
		azimuth:valid_max = 360.f ;
		azimuth:resolution = 0.1f ;
		azimuth:missing_value = -9999.f ;
	short mdf(time, height) ;
		mdf:long_name = "Mean atmospheric vertical velocity" ;
		mdf:units = "100* (% of niquist vel)" ;
		mdf:uncertainty = "0.5" ;
		mdf:valid_min = -10000.f ;
		mdf:valid_max = 10000.f ;
		mdf:resolution = 0.1f ;
		mdf:missing_value = -9999.f ;
	short specw(time, height) ;
		specw:long_name = "Spectral Width: vert velocity" ;
		specw:units = "100 * (% of niquist vel)" ;
		specw:uncertainty = "0.5" ;
		specw:valid_min = -10000.f ;
		specw:valid_max = 10000.f ;
		specw:resolution = 0.1f ;
		specw:missing_value = -9999.f ;
	short snr(time, height) ;
		snr:long_name = "Signal to Noise Ratio: vert velocity" ;
		snr:units = "dB*100" ;
		snr:uncertainty = "1" ;
		snr:valid_min = -3000.f ;
		snr:valid_max = 3000.f ;
		snr:resolution = 0.01f ;
		snr:missing_value = -9999.f ;
	short noise(time, height) ;
		noise:long_name = "1000 * log10(noise signal level: vert vel)" ;
		noise:units = "millibells" ;
		noise:uncertainty = "1" ;
		noise:valid_min = -3000.f ;
		noise:valid_max = 3000.f ;
		noise:resolution = 1.f ;
		noise:missing_value = -9999.f ;
	short smdf(time, height) ;
		smdf:long_name = "Mean acoustic speed" ;
		smdf:units = "100* (% of niquist vel)" ;
		smdf:uncertainty = "0.5" ;
		smdf:valid_min = -10000.f ;
		smdf:valid_max = 10000.f ;
		smdf:resolution = 0.1f ;
		smdf:missing_value = -9999.f ;
	short sspec(time, height) ;
		sspec:long_name = "Spectral Width: acoustic" ;
		sspec:units = "100* (% of niquist vel)" ;
		sspec:uncertainty = "0.5" ;
		sspec:valid_min = -10000.f ;
		sspec:valid_max = 10000.f ;
		sspec:resolution = 0.1f ;
		sspec:missing_value = -9999.f ;
	short ssnr(time, height) ;
		ssnr:long_name = "Signal to Noise Ratio: acoustic" ;
		ssnr:units = "dB*100" ;
		ssnr:uncertainty = "1" ;
		ssnr:valid_min = -3000.f ;
		ssnr:valid_max = 3000.f ;
		ssnr:resolution = 0.01f ;
		ssnr:missing_value = -9999.f ;
	short snoise(time, height) ;
		snoise:long_name = "1000 * log10(noise signal level: sound)" ;
		snoise:units = "millibells" ;
		snoise:uncertainty = "1" ;
		snoise:valid_min = -3000.f ;
		snoise:valid_max = 3000.f ;
		snoise:resolution = 1.f ;
		snoise:missing_value = -9999.f ;
	float height(time, height) ;
		height:long_name = "Array of heights for each sample time" ;
		height:units = "km" ;
		height:uncertainty = "0.01" ;
		height:valid_min = 0.05f ;
		height:valid_max = 20.f ;
		height:resolution = 0.01f ;
		height:missing_value = -9999.f ;
	float tditime ;
		tditime:long_name = "Time Domain Integration Time" ;
		tditime:units = "milliseconds" ;
		tditime:uncertainty = "" ;
		tditime:valid_min = 1.f ;
		tditime:valid_max = 10000.f ;
		tditime:resolution = 1.f ;