NOAA KLM User's Guide

Section 8.3.1.4.2.1

Introduction Page, NOAA KLM TOC, Acronyms
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8.3.1.4.2.1 NOAA KLM Header Records (version 2, pre-April 28, 2005)

The GAC Data Set Header Record format for NOAA KLM (version 2, pre-April 28, 2005) is documented in Table 8.3.1.4.2.1-1. See Section 8.3.1.1 for further explanation of the headings on this table.

Table 8.3.1.4.2.1-1. Format of GAC Data Set Header Record for NOAA KLM (version 2, pre-April 28, 2005).
Field Name	Start Octet	End Octet	Data Type	Word Size	Number of Words	Scale Factor	Units
GENERAL INFORMATION
Data Set Creation Site ID CMS = Centre de Meteorologie Spatiale/France; DSS = Dundee Satellite Receiving Station/UK; NSS = National Environmental Satellite, Data and Information Service/USA; UKM = United Kingdom Meteorological Office/UK)	1	3	c	3	1	0
<ASCII blank = x20>	4	4	c	1	1	0
NOAA Level 1b Format Version Number: 1=TIROS-N, NOAA-6 through NOAA-14; 2=NOAA-15, -16, -17 (pre-April 28, 2005); 3=all satellites post-April 28, 2005.	5	6	u	2	1	0
NOAA Level 1b Format Version Year (4 digit year)	7	8	u	2	1	0	year
NOAA Level 1b Format Version Day of Year (3 digit day)	9	10	u	2	1	0	day
<Reserved for Logical Record Length> For Creation Site use only. Logical Record Length of NOAA Level 1b data set prior to processing.	11	12	u	2	1	0
<Reserved for Block Size> For Creation Site use only. Block Size of NOAA Level 1b data set prior to processing.	13	14	u	2	1	0
Count of Header Records in this Data Set	15	16	u	2	1	0
<Zero Fill>	17	22	i	2	3	0
Data Set Name	23	64	c	42	1	0
Processing Block Identification	65	72	c	8	1	0
NOAA Spacecraft Identification Code 2 = NOAA-16; 4 = NOAA-15; 6 = NOAA-17	73	74	u	2	1	0
Instrument ID 301 = s/n 301; 302 = s/n 302; 304 = s/n 304	75	76	u	2	1	0
Data Type Code 1 = LAC; 2 = GAC; 3 = HRPT; 4 = TIP; 5 = HIRS; 6 = MSU; 7= SSU; 8 = DCS; 9 = SEM; 10 = AMSU-A; 11 = AMSU-B	77	78	u	2	1	0
TIP Source Code 0 = unused, GAC/HRPT/LAC data; 1 = GAC embedded AMSU and TIP; 2 = stored TIP; 3 = HRPT/LAC embedded AMSU and TIP, 4 = stored AIP	79	80	u	2	1	0
Start of Data Set Day Count starting from 0 at 00h, 1 Jan 1950	81	84	u	4	1	0	day
Start of Data Set Year (4 digit year)	85	86	u	2	1	0	year
Start of Data Set Day of Year (3 digit day)	87	88	u	2	1	0	day
Start of Data Set UTC Time of Day	89	92	u	4	1	0	milliseconds
End of Data Set Day Count starting from 0 at 00h, 1 Jan 1950	93	96	u	4	1	0	day
End of Data Set Year (4 digit year)	97	98	u	2	1	0	year
End of Data Set Day of Year (3 digit day)	99	100	u	2	1	0	day
End of Data Set UTC Time of Day	101	104	u	4	1	0	milliseconds
Year of Last CPIDS Update (4 digit year)	105	106	u	2	1	0	year
Day of Year of Last CPIDS Update (3 digit day)	107	108	u	2	1	0	day
<Zero Fill>	109	116	i	2	4	0
DATA SET QUALITY INDICATORS
Instrument Status bits 31-16: <zero fill> bit 15: motor/telemetry (0 = off; 1 = on) bit 14: electronics/telemetry (0 = off; 1 = on) bit 13: channel 1 status (0 = disable; 1 = enable) bit 12: channel 2 status (0 = disable; 1 = enable) bit 11: channel 3a status (0 = disable; 1 = enable) bit 10: channel 3b status (0 = disable; 1 = enable) bit 9: channel 4 status (0 = disable; 1 = enable) bit 8: channel 5 status (0 = disable; 1 = enable) bit 7: channel 3a/3b select status bit 6: voltage calibrate status (0 = off; 1 = on) bit 5: cooler heat (0 = off; 1 = on) bit 4: scan motor (0 = low; 1 = high) bit 3: telemetry lock (0 = off; 1 = lock) bit 2: earth shield (0 = disable; 1 = deploy) bit 1: patch control (0 = off; 1 = on) bit 0: <zero fill>	117	120	u	4	1	0
<Zero Fill>	121	122	i	2	1	0
Record Number of Status Change (if 0, none occurred)	123	124	u	2	1	0
Second Instrument Status (if previous word is 0, no change)	125	128	u	4	1	0
Count of Data Records in this Data Set	129	130	u	2	1	0
Count of Calibrated, Earth Located Scan Lines in this Data Set	131	132	u	2	1	0
Count of Missing Scan Lines	133	134	u	2	1	0
Count of Data Gaps in this Data Set	135	136	u	2	1	0
Count of Data Frames Without Frame Sync Word Errors	137	138	u	2	1	0
Count of PACS Detected TIP Parity Errors	139	140	u	2	1	0
Sum of All Auxiliary Sync Errors Detected in the Input Data	141	142	u	2	1	0
Time Sequence Error (0 = none; otherwise the record number of the first occurrence)	143	144	u	2	1	0
Time Sequence Error Code These are bit flags taken from Scan Line Quality Flags Time Problem Code on data record reported in Time Sequence Error field above. If a bit is on (=1) then the statement is true. bits 15 - 8: <zero fill> bit 7: time field is bad but can probably be inferred from the previous good time. bit 6: time field is bad and can't be inferred from the previous good time. bit 5: this record starts a sequence that is inconsistent with previous times (i.e., there is a time discontinuity). This may or may not be associated with a spacecraft clock update. bit 4: start of a sequence that apparently repeats scan times that have been previously accepted. bits 3 - 0: <zero fill>	145	146	u	2	1	0
SOCC Clock Update Indicator (0 = none during this orbit; otherwise the record number of the first occurrence)	147	148	u	2	1	0
Earth Location Error Indicator (0 = none during this orbit; otherwise the record number of the first occurrence)	149	150	u	2	1	0
Earth Location Error Code These are bit flags taken from Scan Line Quality Flags Earth Location Problem Code on data record reported in Earth Location Error Indicator field above. If a bit is on (=1) then the statement is true. bits 15 - 8: <zero fill> bit 7: not earth located because of bad time; earth location fields zero filled. bit 6: earth location questionable because of questionable time code. (See time problem flags above.) bit 5: earth location questionable -- only marginal agreement with reasonableness check. bit 4: earth location questionable -- fails reasonableness check. bits 3-0: <zero fill>	151	152	u	2	1	0
PACS Status Bit Field bits 15-3: <zero fill> bit 2: pseudo noise (0 = normal data; 1 = P/N data) bit 1: tape direction (0 = reverse playback, time decrementing) bit 0: data mode (0 = test data; 1 = flight data)	153	154	u	2	1	0
PACS Data Source 0 = unused; 1 = Fairbanks; 2 = Wallops; 3 = SOCC	155	156	u	2	1	0
<Zero Fill>	157	160	i	4	1	0
<Reserved for the Ingester>	161	168	c	8	1	0
<Reserved for Decommutation>	169	176	c	8	1	0
<Zero Fill>	177	186	i	2	5	0
CALIBRATION
Ramp/Auto Calibration Indicators Bit Field The ramp calibration signal consists of the output of a D/A generator that increases one step per revolution of the radiometer scanning system. The nominal ramp calibration in the A/D output skips a step approximately once every 62 scan revolutions, and once every 62 steps of the D/A ramp generation. Channels 1, 2, and 3A increment linearly with the scan count, except as previously noted, until the dual gain break point to 500 counts is reached. Channels 3B, 4, and 5 ramp values increment linearly with scan line count, except as previously noted. The following bit fields indicate non-linearity in the ramp calibration signal: bits 15-6: <zero fill> bit 5: ramp non-linearity for GAC, LAC, and HRPT ch 5 bit 4: ramp non-linearity for GAC, LAC, and HRPT ch 4 bit 3: ramp non-linearity for GAC, LAC, and HRPT ch 3b bit 2: ramp non-linearity for GAC, LAC, and HRPT ch 3a bit 1: ramp non-linearity for GAC, LAC, and HRPT ch 2 bit 0: ramp non-linearity for GAC, LAC, and HRPT ch 1	187	188	u	2	1	0
Year of Most Recent Solar Channel Calibration (4 digit year)	189	190	u	2	1	0	year
Day of Year of Most Recent Solar Channel Calibration (3 digit day)	191	192	u	2	1	0	day
Primary Calibration Algorithm ID	193	194	u	2	1	0
Primary Calibration Algorithm Selected Options bit 15: <zero fill> bit 14: Ch 5 resolution (0 = high; 1 = low) bit 13: Ch 5 substitution coefficients (0 = no; 1 = yes) bits 12-10: <zero fill> bit 9: Ch 4 resolution (0 = high; 1 = low) bit 8: Ch 4 substitution coefficients (0 = no; 1 = yes) bits 7-5: <zero fill> bit 4: Ch 3b resolution (0 = high; 1 = low) bit 3: Ch 3b substitution coefficients (0 = no; 1 = yes) bits 2-0: <zero fill>	195	196	u	2	1	0
Secondary Calibration Algorithm ID	197	198	u	2	1	0
Secondary Calibration Algorithm Selected Options bit 15: <zero fill> bit 14: Ch 5 resolution (0 = high; 1 = low) bit 13: Ch 5 substitution coefficients (0 = no; 1 = yes) bits 12-10: <zero fill> bit 9: Ch 4 resolution (0 = high; 1 = low) bit 8: Ch 4 substitution coefficients (0 = no; 1 = yes) bits 7-5: <zero fill> bit 4: Ch 3b resolution (0 = high; 1 = low) bit 3: Ch 3b substitution coefficients (0 = no; 1 = yes) bits 2-0: <zero fill>	199	200	u	2	1	0
IR Target Temperature 1 Conversion Coefficient 1	201	202	i	2	1	2
IR Target Temperature 1 Conversion Coefficient 2	203	204	i	2	1	5
IR Target Temperature 1 Conversion Coefficient 3	205	206	i	2	1	8
IR Target Temperature 1 Conversion Coefficient 4	207	208	i	2	1	11
IR Target Temperature 1 Conversion Coefficient 5	209	210	i	2	1	14
IR Target Temperature 1 Conversion Coefficient 6	211	212	i	2	1	17
IR Target Temperature 2 Conversion Coefficient 1	213	214	i	2	1	2
IR Target Temperature 2 Conversion Coefficient 2	215	216	i	2	1	5
IR Target Temperature 2 Conversion Coefficient 3	217	218	i	2	1	8
IR Target Temperature 2 Conversion Coefficient 4	219	220	i	2	1	11
IR Target Temperature 2 Conversion Coefficient 5	221	222	i	2	1	14
IR Target Temperature 2 Conversion Coefficient 6	223	224	i	2	1	17
IR Target Temperature 3 Conversion Coefficient 1	225	226	i	2	1	2
IR Target Temperature 3 Conversion Coefficient 2	227	228	i	2	1	5
IR Target Temperature 3 Conversion Coefficient 3	229	230	i	2	1	8
IR Target Temperature 3 Conversion Coefficient 4	231	232	i	2	1	11
IR Target Temperature 3 Conversion Coefficient 5	233	234	i	2	1	14
IR Target Temperature 3 Conversion Coefficient 6	235	236	i	2	1	17
IR Target Temperature 4 Conversion Coefficient 1	237	238	i	2	1	2
IR Target Temperature 4 Conversion Coefficient 2	239	240	i	2	1	5
IR Target Temperature 4 Conversion Coefficient 3	241	242	i	2	1	8
IR Target Temperature 4 Conversion Coefficient 4	243	244	i	2	1	11
IR Target Temperature 4 Conversion Coefficient 5	245	246	i	2	1	14
IR Target Temperature 4 Conversion Coefficient 6	247	248	i	2	1	17
<Zero Fill>	249	256	i	4	2	0
RADIANCE CONVERSION
Ch 1 Solar Filtered Irradiance in Wavelength	257	260	i	4	1	1
Ch 1 Equivalent Filter Width in Wavelength	261	264	i	4	1	3
Ch 2 Solar Filtered Irradiance in Wavelength	265	268	i	4	1	1
Ch 2 Equivalent Filter Width in Wavelength	269	272	i	4	1	3
Ch 3a Solar Filtered Irradiance in Wavelength	273	276	i	4	1	1
Ch 3a Equivalent Filter Width in Wavelength	277	280	i	4	1	3
Ch 3b Central Wavenumber (See Section 7.1.2.3 for further explanation.)	281	284	i	4	1	2
Ch 3b Constant 1	285	288	i	4	1	5
Ch 3b Constant 2	289	292	i	4	1	6
Ch 4 Central Wavenumber	293	296	i	4	1	3
Ch 4 Constant 1	297	300	i	4	1	5
Ch 4 Constant 2	301	304	i	4	1	6
Ch 5 Central Wavenumber	305	308	i	4	1	3
Ch 5 Constant 1	309	312	i	4	1	5
Ch 5 Constant 2	313	316	i	4	1	6
<Zero Fill>	317	328	i	4	3	0
NAVIGATION
Reference Ellipsoid Model ID The ellipsoid is a mathematically tractable approximation of the geoid, which is an equipotential surface at mean sea level. The maximum departure of the ellipsoid from the geoid is approximately � 65 meters. (WGS-72 = World Geodetic Survey 1972)	329	336	c	8	1	0
Nadir Earth Location Tolerance	337	338	u	2	1	1	kilometers
Earth Location Bit Field bits 15 - 2: <zero fill> bit 1: reasonableness test active (0 = inactive) bit 0: attitude error correction (0 = not corrected)	339	340	u	2	1	0
<Zero Fill>	341	342	i	2	1	0
Constant Roll Attitude Error	343	344	i	2	1	3	degrees
Constant Pitch Attitude Error	345	346	i	2	1	3	degrees
Constant Yaw Attitude Error	347	348	i	2	1	3	degrees
Epoch Year for Orbit Vector	349	350	u	2	1	0	year
Day of Epoch Year for Orbit Vector	351	352	u	2	1	0	day
Epoch UTC Time of Day for Orbit Vector	353	356	u	4	1	0	milliseconds
Semi-major Axis	357	360	i	4	1	5	kilometers
Eccentricity	361	364	i	4	1	8
Inclination	365	368	i	4	1	5	degrees
Argument of Perigee	369	372	i	4	1	5	degrees
Right Ascension of the Ascending Node	373	376	i	4	1	5	degrees
Mean Anomaly	377	380	i	4	1	5	degrees
Position Vector X Component	381	384	i	4	1	5	kilometers
Position Vector Y Component	385	388	i	4	1	5	kilometers
Position Vector Z Component	389	392	i	4	1	5	kilometers
Velocity Vector X-dot Component	393	396	i	4	1	8	kilometers/second
Velocity Vector Y-dot Component	397	400	i	4	1	8	kilometers/second
Velocity Vector Z-dot Component	401	404	i	4	1	8	kilometers/second
Earth/Sun Distance Ratio	405	408	u	4	1	6
<Zero Fill>	409	424	i	4	4	0
ANALOG TELEMETRY CONVERSION
Patch Temperature Conversion Coefficient 1	425	426	i	2	1	2
Patch Temperature Conversion Coefficient 2	427	428	i	2	1	2
Patch Temperature Conversion Coefficient 3	429	430	i	2	1	2
Patch Temperature Conversion Coefficient 4	431	432	i	2	1	2
Patch Temperature Conversion Coefficient 5	433	434	i	2	1	2
<Reserved>	435	436	i	2	1	2
Patch Temperature Extended Conversion Coefficient 1	437	438	i	2	1	2
Patch Temperature Extended Conversion Coefficient 2	439	440	i	2	1	2
Patch Temperature Extended Conversion Coefficient 3	441	442	i	2	1	2
Patch Temperature Extended Conversion Coefficient 4	443	444	i	2	1	2
Patch Temperature Extended Conversion Coefficient 5	445	446	i	2	1	2
<Reserved>	447	448	i	2	1	2
Patch Power Conversion Coefficient 1	449	450	i	2	1	2
Patch Power Conversion Coefficient 2	451	452	i	2	1	2
Patch Power Conversion Coefficient 3	453	454	i	2	1	2
Patch Power Conversion Coefficient 4	455	456	i	2	1	2
Patch Power Conversion Coefficient 5	457	458	i	2	1	2
<Reserved>	459	460	i	2	1	2
Radiator Temperature Conversion Coefficient 1	461	462	i	2	1	2
Radiator Temperature Conversion Coefficient 2	463	464	i	2	1	2
Radiator Temperature Conversion Coefficient 3	465	466	i	2	1	2
Radiator Temperature Conversion Coefficient 4	467	468	i	2	1	2
Radiator Temperature Conversion Coefficient 5	469	470	i	2	1	2
<Reserved>	471	472	i	2	1	2
Blackbody Temperature 1 Conversion Coefficient 1	473	474	i	2	1	2
Blackbody Temperature 1 Conversion Coefficient 2	475	476	i	2	1	2
Blackbody Temperature 1 Conversion Coefficient 3	477	478	i	2	1	2
Blackbody Temperature 1 Conversion Coefficient 4	479	480	i	2	1	2
Blackbody Temperature 1 Conversion Coefficient 5	481	482	i	2	1	2
<Reserved>	483	484	i	2	1	2
Blackbody Temperature 2 Conversion Coefficient 1	485	486	i	2	1	2
Blackbody Temperature 2 Conversion Coefficient 2	487	488	i	2	1	2
Blackbody Temperature 2 Conversion Coefficient 3	489	490	i	2	1	2
Blackbody Temperature 2 Conversion Coefficient 4	491	492	i	2	1	2
Blackbody Temperature 2 Conversion Coefficient 5	493	494	i	2	1	2
<Reserved>	495	496	i	2	1	2
Blackbody Temperature 3 Conversion Coefficient 1	497	498	i	2	1	2
Blackbody Temperature 3 Conversion Coefficient 2	499	500	i	2	1	2
Blackbody Temperature 3 Conversion Coefficient 3	501	502	i	2	1	2
Blackbody Temperature 3 Conversion Coefficient 4	503	504	i	2	1	2
Blackbody Temperature 3 Conversion Coefficient 5	505	506	i	2	1	2
<Reserved>	507	508	i	2	1	2
Blackbody Temperature 4 Conversion Coefficient 1	509	510	i	2	1	2
Blackbody Temperature 4 Conversion Coefficient 2	511	512	i	2	1	2
Blackbody Temperature 4 Conversion Coefficient 3	513	514	i	2	1	2
Blackbody Temperature 4 Conversion Coefficient 4	515	516	i	2	1	2
Blackbody Temperature 4 Conversion Coefficient 5	517	518	i	2	1	2
<Reserved>	519	520	i	2	1	2
Electronics Current Conversion Coefficient 1	521	522	i	2	1	2
Electronics Current Conversion Coefficient 2	523	524	i	2	1	2
Electronics Current Conversion Coefficient 3	525	526	i	2	1	2
Electronics Current Conversion Coefficient 4	527	528	i	2	1	2
Electronics Current Conversion Coefficient 5	529	530	i	2	1	2
<Reserved>	531	532	i	2	1	2
Motor Current Conversion Coefficient 1	533	534	i	2	1	2
Motor Current Conversion Coefficient 2	535	536	i	2	1	2
Motor Current Conversion Coefficient 3	537	538	i	2	1	2
Motor Current Conversion Coefficient 4	539	540	i	2	1	2
Motor Current Conversion Coefficient 5	541	542	i	2	1	2
<Reserved>	543	544	i	2	1	2
Earth Shield Position Conversion Coefficient 1	545	546	i	2	1	2
Earth Shield Position Conversion Coefficient 2	547	548	i	2	1	2
Earth Shield Position Conversion Coefficient 3	549	550	i	2	1	2
Earth Shield Position Conversion Coefficient 4	551	552	i	2	1	2
Earth Shield Position Conversion Coefficient 5	553	554	i	2	1	2
<Reserved>	555	556	i	2	1	2
Electronics Temperature Conversion Coefficient 1	557	558	i	2	1	2
Electronics Temperature Conversion Coefficient 2	559	560	i	2	1	2
Electronics Temperature Conversion Coefficient 3	561	562	i	2	1	2
Electronics Temperature Conversion Coefficient 4	563	564	i	2	1	2
Electronics Temperature Conversion Coefficient 5	565	566	i	2	1	2
<Reserved>	567	568	i	2	1	2
Cooler Housing Temperature Conversion Coefficient 1	569	570	i	2	1	2
Cooler Housing Temperature Conversion Coefficient 2	571	572	i	2	1	2
Cooler Housing Temperature Conversion Coefficient 3	573	574	i	2	1	2
Cooler Housing Temperature Conversion Coefficient 4	575	576	i	2	1	2
Cooler Housing Temperature Conversion Coefficient 5	577	578	i	2	1	2
<Reserved>	579	580	i	2	1	2
Baseplate Temperature Conversion Coefficient 1	581	582	i	2	1	2
Baseplate Temperature Conversion Coefficient 2	583	584	i	2	1	2
Baseplate Temperature Conversion Coefficient 3	585	586	i	2	1	2
Baseplate Temperature Conversion Coefficient 4	587	588	i	2	1	2
Baseplate Temperature Conversion Coefficient 5	589	590	i	2	1	2
<Reserved>	591	592	i	2	1	2
Motor Housing Temperature Conversion Coefficient 1	593	594	i	2	1	2
Motor Housing Temperature Conversion Coefficient 2	595	596	i	2	1	2
Motor Housing Temperature Conversion Coefficient 3	597	598	i	2	1	2
Motor Housing Temperature Conversion Coefficient 4	599	600	i	2	1	2
Motor Housing Temperature Conversion Coefficient 5	601	602	i	2	1	2
<Reserved>	603	604	i	2	1	2
A/D Converter Temperature Conversion Coefficient 1	605	606	i	2	1	2
A/D Converter Temperature Conversion Coefficient 2	607	608	i	2	1	2
A/D Converter Temperature Conversion Coefficient 3	609	610	i	2	1	2
A/D Converter Temperature Conversion Coefficient 4	611	612	i	2	1	2
A/D Converter Temperature Conversion Coefficient 5	613	614	i	2	1	2
<Reserved>	615	616	i	2	1	2
Detector #4 Bias Voltage Conversion Coefficient 1	617	618	i	2	1	2
Detector #4 Bias Voltage Conversion Coefficient 2	619	620	i	2	1	2
Detector #4 Bias Voltage Conversion Coefficient 3	621	622	i	2	1	2
Detector #4 Bias Voltage Conversion Coefficient 4	623	624	i	2	1	2
Detector #4 Bias Voltage Conversion Coefficient 5	625	626	i	2	1	2
<Reserved>	627	628	i	2	1	2
Detector #5 Bias Voltage Conversion Coefficient 1	629	630	i	2	1	2
Detector #5 Bias Voltage Conversion Coefficient 2	631	632	i	2	1	2
Detector #5 Bias Voltage Conversion Coefficient 3	633	634	i	2	1	2
Detector #5 Bias Voltage Conversion Coefficient 4	635	636	i	2	1	2
Detector #5 Bias Voltage Conversion Coefficient 5	637	638	i	2	1	2
<Reserved>	639	640	i	2	1	2
Channel 3b Blackbody View Conversion Coefficient 1	641	642	i	2	1	0
Channel 3b Blackbody View Conversion Coefficient 2	643	644	i	2	1	0
Channel 3b Blackbody View Conversion Coefficient 3	645	646	i	2	1	0
Channel 3b Blackbody View Conversion Coefficient 4	647	648	i	2	1	0
Channel 3b Blackbody View Conversion Coefficient 5	649	650	i	2	1	0
<Reserved>	651	652	i	2	1	0
Channel 4 Blackbody View Conversion Coefficient 1	653	654	i	2	1	2
Channel 4 Blackbody View Conversion Coefficient 2	655	656	i	2	1	2
Channel 4 Blackbody View Conversion Coefficient 3	657	658	i	2	1	2
Channel 4 Blackbody View Conversion Coefficient 4	659	660	i	2	1	2
Channel 4 Blackbody View Conversion Coefficient 5	661	662	i	2	1	2
<Reserved>	663	664	i	2	1	2
Channel 5 Blackbody View Conversion Coefficient 1	665	666	i	2	1	0
Channel 5 Blackbody View Conversion Coefficient 2	667	668	i	2	1	0
Channel 5 Blackbody View Conversion Coefficient 3	669	670	i	2	1	0
Channel 5 Blackbody View Conversion Coefficient 4	671	672	i	2	1	0
Channel 5 Blackbody View Conversion Coefficient 5	673	674	i	2	1	0
<Reserved>	675	676	i	2	1	0
Reference Voltage Conversion Coefficient 1	677	678	i	2	1	2
Reference Voltage Conversion Coefficient 2	679	680	i	2	1	2
Reference Voltage Conversion Coefficient 3	681	682	i	2	1	2
Reference Voltage Conversion Coefficient 4	683	684	i	2	1	2
Reference Voltage Conversion Coefficient 5	685	686	i	2	1	2
<Reserved>	687	688	i	2	1	2
FILLER
<Zero Fill> <EOR> = 4608 for packed datasets <EOR> = 5632 for unpacked datasets	689	<EOR>	i	4	??	0

Amended April 5, 2004

Amended January 4, 2005

Amended April 12, 2005

Amended May 4, 2005

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