APPENDIX F

DC-8 DATA DISTRIBUTION SYSTEM (DADS) CHARACTERISTICS

 

DC-8 Data Acquisition and Distribution System (DADS)

Characteristics and Output Products

DC-8 DADS Data Products

A. In-Flight Data Products

During each flight there are several DADS displays, viewable on monitors throughout the cabin. The DADS Parameter Display (see table F1) shows a subset of DADS data in table format. The Track Plot Display shows the aircraft flight track superimposed on a reference map. The Real-Time Plot shows several parameters as a color graph, generally in a time-series strip chart format. All of these are configurable as required and are continuously updated. In addition, the Weather Satellite APT Receiver displays real-time satellite images from the NOAA polar orbiters whenever available. It is also be possible to graphically examine all DADS parameters from any portion of the flight at the DADS station computer if necessary.

The DC-8 DADS serial transfer of housekeeping data is available in-flight to allow easy access to aircraft data by experimenter computers. The data is in ASCII format, in engineering units Data is sent at one second intervals with transmission rates of 1200, 9600, and 19.2K baud. Format and hardware interface requirements are described in another section below.

B. Post-Flight Data Products

After each flight several hardcopy DADS data products will be available. The DC-8 Mission Director Log will contain time/data stamped commentary on the flight. A set of Track Plots will show the DC-8 flight track, including flight-level winds. A set of Time-Series Plots will show a selection of DADS parameters. The Parameter Printout will contain 10-second picks of representative parameters. Other graphical products may be produced by request of the Mission Director. All of these products will be given to the GTE Project Office after each flight, in both hardcopy and electronic format. The DADS ASCII-formatted data set will also be submitted.

TABLE F1. ICATS Parameter Video Display Screen

Day

ddd

time

Hh:mm:ss.sss

Latitude

Deg mm.m

O3

ppbv

Longitude

Deg mm.m

CO

ppbv

Press altitude

ft

NO

volts

Press altitude

m

CO2

ppmv

pressure

mb

CH4

 ppmv

Cabin altitude

ft

Aerosol num density

 Counts/cc

True air speed

kts

Cryo H2O

Deg C

Mach Number

 

D/F point 2

 Deg C

Ground Speed

kts

D/F point 3

 Deg C

Vertical speed

Ft/min

Specific humidity

 GH2O/kg air

Wind Speed

kts

Relative humidity(ice)

%

Wind Direction

deg

Relative humiditywtr)

 %

To waypoint Number

 

Static air temperature

Deg C

Time to go

min

SAT computed

Deg C

True Heading

deg

Total air temperature

Deg C

Drift angle

deg

Potential temperature

Deg K

Pitch angle

deg

IR surface temperature

Deg C

Roll angle

deg

Sun elevation angle/er

deg

GPS altitude msl

ft

Sun azimuth angle/er

deg

Radar Altitude

ft

Solar zenith angle

deg

 

DADS Serial Outputs to Experiments

The DADS ASCII-formatted data is available in real time in-flight through a serial interface, and post-flight as a computer file (9600/19.2K baud format only). This section describes the formats and hardware interface requirements used to access this data.

A. 1200 Baud Data Format

Data is transferred once per second at 1200 baud in two 56-character blocks which each begin with a unique character identifier and end with an ASCII carriage return and line feed. The total number of characters every second is 112. Parameter fields within each block are not separated by a space, but there may be one or more blanks at the end of a block (before the carriage return and line feed) to pad the length to 56 characters. Table F2 shows the configuration, and Table F3 shows an example.

 

TABLE F2. DADS Serial Output 1200 Baud Block Configuration

Identifer Parameters Field Format Units
A Day aaa
 day of year
  Time (UT)
 bb:bb:bb.bbb

hour:min:sec
  Latitude
±cc cc.c

degrees/minutes
  Longitude ±ddd dd.d

degrees/minutes
  Pitch
 eee.e

deg
  Roll ffff.f

deg
  Wind speed
 ggg

knots
  Wind direction hhh deg
  True air speed iii
 knots
B Ground speed jjjj knots
  True heading kkk.k

deg
  Drift angle lll.l

deg
  Pressure altitude mmmmm feet
  Radar altitude nnnnn feet
  Dew/frost point temp (GE 1011 hygrometer) with state flagged ooooo.o deg C
  Dew/frost point temp (EG&G 300 hygrometer) with state flagged ppppp.p deg C
  Static air temperature qqq.q deg C
  Total air temperature rrr.r deg C
  IR surface temperature sss.s deg C

TABLE F3. DADS Serial Output 1200 Baud Block Example

Aaaabb:bb:bb.bbb±cc cc.c±ddd dd.deee.effff.fggghhhiii <cr><lf>
Bjjjjkkk.klll.lmmmmmnnnnnooooo.oppppp.pqqq.qrrr.rsss.s<cr><lf>
A32101:22:45.105+34 25.0-122 03.0-10.3 -45.6110270450 <cr><lf>
B 425212.3 5.12800024050-1012.4-3012.7-10.1 14.6-15.9 <cr><lf>

Key

<cr>
<lf>

ASCII carriage return
ASCII line feed

 

B. 9600/19.2K Baud Data Format

Data is transferred once per second at 9600 and 19.2K baud in seven 56-character blocks which each begin with a unique character identifier and end with an ASCII carriage return and line feed. The total number of characters available every second is 392. Parameter fields within each block (including the start-of-block character) are separated by at least one space, and there may be one or more blanks at the end of a block (before the carriage return and line feed) to pad the length to 56 characters. The contents of the first five blocks (identifiers C through G) are fixed. The contents of the last two blocks (identifiers H and I) are at the discretion of the Mission Manager and will be configured for TRACE-P. Table F4 shows the configuration, and Table F5 shows an example.

TABLE F4. DADS Serial Output 9600/19.2K Baud Block Configuration

Identifier Parameters Field Format Units
C Day aaa day of year
 

Time (UT)

 bb:bb:bb.bbb hour:min:sec
  Latitude

±cc cc.c

 degrees/minutes
  Longitude

±ddd dd.d

 degrees/minutes
 

Pitch

eee.e

deg
 

Roll

ffff.f

deg
  Wind speed ggg

knots
D Wind direction hhh deg
 

True air speed

 iii

knots
  Ground speed

jjjj

knots
 

True heading

kkk.k

deg
 

Drift angle

 lll.l

deg
  Pressure altitude mmmmm

feet
 

Radar altitude

nnnnn

feet
 

Dew/forst point temp
(GE 1011 hygrometer)
with state flagged

ooooo.o

 deg C
 

Dew/frost point temp
(EG&G 300 hygrometer)
with state flagged

 ppppp.p deg C
  Static air teemperature

qqq.q

 deg C
  Total air temperature

rrr.r

 deg C
E IR surface temperature sss.s deg C
 

Static air temperature, calculated

ttt.t

deg C
 

Indicated air speed

uuu

knots
 

Vertical speed

vvvvv

ft/min
  Distance to go

wwwww.w

 nm
   Time to go

xxxx.x

 min
  Align status yy  
F Cabin Altitude OOO.O feet
 

Pressure

zzzzz

mb
 

Mach number

JJJJ.J

  
 

Cross track distance

 K.KKK

nm
  Desired track LLLLL.L

deg
 

Track angle error

 MMMM.M

deg
 

Track angle

 NNNN.N

deg
  Specific humidity P.PPP g H2/kg air
G Partial pressure H2O QQ.Q deg
 

Relative humidity with respect to ice

 RR.R mb
 

Relative humidity with respect to water

SS.S

%
 

Saturation vapor pressure of water

 TT.TT

%
 

Saturation vapor pressure relative to ice

UU.UU

 mb
 

Sun elevation in ground reference frame, refracted

VVV.V

 mb
 

Sun elevation in aircraft reference frame, refracted

 WWW.W

deg
 

Sun azimuth in ground reference frame

XXX.X

deg
 

Sun azimuth in aircraft reference frame relative to the aircraft nose

YYYY.Y

 deg
H

Aerosol  density
Cryo  H2O
Ozone
CO
NO
CH4
CO2
Gps altitude msl

 

Counts/cc
Deg C
ppbv
ppbv
ppmv
ppmv
ppmv
ft

I

CH4
CO2
Gps altitude msl Egi latitude
Egi longitude
Sun Elev Earth ref
Sun  Elev A/C ref
Declination sun
Ra sun
Solar zenith angle
Specific humidity

 

ppmv
ppmv
ft
deg
deg
deg
deg
deg
deg
gmH2O/kg air



TABLE F5. DADS Serial Data 9600/19.2K Baud Block Example

9600/19.2K Baud Block Example

C aaa bb:bb:bb.bbb ±cc cc.c ±ddd dd.d eee.e ffff.f ggg<cr><lf>
D hhh iii jjjj kkk.k lll.l mmmmm nnnnn ooooo.o ppppp.p<cr><lf>
E qqq.q rrr.r sss.s ttt.t uuu vvvvvv wwwww.w xxxx.x yy<cr><lf>
F zzzzz JJJJ.J K.KKK LLLLL.L MMMM.M NNNN.N OOO.O P.PPP<cr><lf>
G QQ.Q RR.R SS.S TT.TT UU.UU VVV.V WWW.W XXX.X YYYY.Y <cr><lf>
H ****************************************************<cr><lf>
I ****************************************************<cr><lf>

C 321 01:22:45.105 +34 25.0 -122 03.0 -10.3 -45.6 110<cr><lf>
D 270 450 425 212.3 5.1 28000 24050 -1012.4 -3012.7<cr><lf>
E -10.1 14.6 -15.9 -9.4 410 -1250 -332.6 50.8 45<cr><lf>
F 5100 466.7 0.714 332.0 240.7 -11.8 202.0 0.269<cr><lf>
G 13.4 15.2 20.2 34.22 37.66 10.6 13.7 252.3 -160.2 <cr><lf>
H ****************************************************<cr><lf>
I ****************************************************<cr><lf>

Key

<cr> ASCII carriage return
<lf> ASCII line feed
****... block content subject to Mission Manager's discretion

 

C. General DADS Serial Output Format Information

All data parameters are in engineering units. For integer formats, the number of digits in a field may vary from one to the number shown above. For other formats, the placement of the decimal point and number of digits to the right of it are guaranteed to be as shown. However, the number of digits to the left of the decimal point may vary from one to the number shown in the field format. Unused leading digits are padded with blanks or zeroes.

Individual parameter fields will be filled with special characters for the following reasons:

Condition Special Character
Data was too big for parameter field
Data was too small for parameter field
Data formatting error occurred		 >
<
?

Additionally, invalid or unavailable data may be replaced by question marks (?), however, the absence of question marks in a parameter field does not guarantee the validity of the data.

D. Hardware Interface Information

The DADS data distribution subsystem provides a well-defined data transfer mechanism between the DADS and onboard experiments. It broadcasts aircraft houskeeping data in ASCII-formatted engineering units via RS-232-C serial connections to experiment stations at one second intervals. Experimenters who want to receive DADS serial data in-flight will have a DADS data box on or near their experimenter station. Each box outputs the data via three RS-232-C female DB-25 connectors, corresponding to the three baud rates, which may be used in any combination. Each DB-25 connector may be configured as a modem (DCE) or a computer (DTE) with a switch, which exchanges pins 2 and 3. There is no handshaking capability between the DADS and the experiments. The outputs are opto-isolated, and the RS-232-C drivers are current limited. The serial protocol is one start bit, 8 data bits, no parity, and one stop bit. Table F6 shows the pinout of the DADS box DB-25 connectors.

 

TABLE F6. DADS Distribution Box RS-232-C DB-25 Connector Pinout

Pin   RS-232 Function Connection
1   AA Protective Ground  
2 TD BA Transmit Data DADS serial data on this pin (if switch selects pin 2)
3 RD BB Receive Data DADS serial data on this pin (if switch selects pin 3)
4 RTS CA Request to Send Jumpered to pin 5
5 CTS CB Clear to Send Jumpered to pin 4
6 DSR CC Data Set Ready Jumpered to pins 8 and 20
7   AB Signal Ground DADS signal ground
8 DCD CF Carrier Detect Jumpered to pins 6 and 20
20 DTR CD Data Terminal Ready Jumpered to pins 6 and 8

 

 

Table F7. DC-8 Ancillary Data

Data Available on Video Monitors Throughout DC-8 Aircraft

Forward Cloud Video
Nadir Cloud Video
DIAL Aerosol & Ozone Profiles
Track Plot
Weather Radar & Nadir & Nadir Cloud Video, Forward Cloud Video, & Parameters tab
PI Parameter Tabular Displays
PI Parameter Graphics Displays
APT
Weather Radar

Project Supplied Ancillary Data Displayed by ICATS
H2O Cryo
NO
CO
CN
O3
CO2
CH4