Ken Mattingly

That's negative, Jack. We haven't powered up any of the downlink at this time. You'll be doing this and the command module RCS pressurization both by yourself.

Ken Mattingly

Okay. Now, the next event is going to be the separation of the service module, and these are some LM steps, but so that you will know what is going on, I'll read them to you. The LM will do a LM plus-X of one-half foot per second. Then you'll be hitting the CM SM SEP on and up, on their command. As soon as we are free of the service module, the LM will do another LM minus-X for 0.5 feet per second. This is called the push-pull maneuver. I think it was described this afternoon.

Jack Swigert (CMP)

Yes, Ken. It was, I heard about it.

Ken Mattingly

Okay. I just wanted you to know that's the sequence you're in. Okay. At the completion of that, we go back to panel 8, and it's SEQUENTIAL, PYRO ARM, both of them, to SAFE.

Jack Swigert (CMP)

Okay. Panel 8: SEQ PYRO ARM, two, to SAFE.

Ken Mattingly

Okay. And following this, we take SEQUENTIAL, LOGIC, two, to OFF.

Jack Swigert (CMP)

Okay. LOGIC, two, to OFF.

Ken Mattingly

I'm sorry, Jack. I'll have to ask you to repeat that.

Jack Swigert (CMP)

Okay. Panel 8: SEQ LOGIC, two, to OFF. Are they ON now, Ken? I don't remember turning them—I guess that's part of one of the other sequences, huh? That we turned them ON?

Ken Mattingly

That's affirm. The reason we're turning the logic off, Jack, is a power savings. So we'll be turning them off, and I'll be getting them back on when we go to get off of the LM; and then turn them back off, then we'll be turning them on prior to entry. Just so you know what's coming.

Ken Mattingly

Okay. Then following this, the LM will pitch up to acquire the Moon—Excuse me, they're going to pitch up and acquire the service module and photograph, and they'll be using the ACA for rotations from now on. And you may see the LM out of window number 5 at the same time they pitch up to acquire it.

Jack Swigert (CMP)

Okay. The LM pitches up, acquires the service module and photographs it, and I should expect to find—might possibly see the service module out of window 5.

Ken Mattingly

That's affirmative. Okay, now we're down to EI minus 3 hours, or the next time-event, and the LM starts a maneuver to what we call the Moon-view attitude. This maneuver is designed to place the command module optics pointing with zero zero at the Moon, and it will be flown to on the LM ball angle.

Jack Swigert (CMP)

Okay, the LM maneuvers to the Moon-viewing attitude which would place the Moon in the center of the command module optics with them at zero zero.

Ken Mattingly

That's affirmative. Okay, now we're going to panel 5, and it's circuit breaker G&N, COMPUTER, MAIN B, closed.

Jack Swigert (CMP)

Okay. Panel 5: CB G&N, COMPUTER, MAIN B, closed.

Ken Mattingly

That's affirmative. Now you're going to come up with a 37 ENTER 06 ENTER most likely on the computer. And what we want to do is to put the computer to standby; if you come up with a 37 06, you'll have to do an ENTER in order to get the code 62. If it's got 62 on it, you can do a PROCEED until the DSKY blanks. You might remember that the AC is still off at this time so you won't be getting the STANDBY status light, and your cue that the computer is indeed in standby is when the DSKY goes blank.

Jack Swigert (CMP)

Okay. You're saying that I will probably get a PROGRAM 06 with a VERB 37 ENTER flashing.

Ken Mattingly

I expect that you —

Ken Mattingly

I expect you are —

Ken Mattingly

Yes. We think that you're going to come up with a 37 06 already in the DSKY. If you do, do an ENTER and that should take you to the code 00062, which is the request for standby. And when you get that, hit PROCEED until the DSKY blanks. If you come up with something else, that's where we want to end up anyhow. With either, when you get the code 62 when it comes up, just do a PROCEED on it.

Jack Swigert (CMP)

Okay. Is there anything else I could get?

Ken Mattingly

I don't believe so, Jack. That's one that when you get to that step, if you do get something else, we will be standing by to see that you see. The whole scheme is to go to standby.

Jack Swigert (CMP)

Will you be getting it on downlink?

Ken Mattingly

No, sir. We don't have that powered up yet.

Jack Swigert (CMP)

Okay. I'll yell to Jim, and Jim will give you a call.

Ken Mattingly

Okay. The basic thing, Jack, is just to get the computer in standby to save power.

Ken Mattingly

And we need another battery B readout.

Jack Swigert (CMP)

Okay. He is on his way. Go ahead.

Ken Mattingly

Okay. Now, we're at EI minus 2 plus 30; we're going to panel 5: circuit breaker ESSENTIAL INSTRUMENTATION, MAIN A, closed.

Jack Swigert (CMP)

Okay, CB ESSENTIAL INSTRUMENTATION, MAIN A, closed.

Ken Mattingly

That's correct. Now circuit breaker G&N, IMU HEATER, MAIN A, closed.

Jack Swigert (CMP)

CB G&N, IMU HEATER, MAIN A, closed.

Ken Mattingly

That's correct. CB LM POWER-1 and -2, open.

Jack Swigert (CMP)

CB LM POWER-1 and -2, open.

Ken Mattingly

That's correct. CB G&N, COMPUTER, MAIN A, closed.

Jack Swigert (CMP)

CB G&N, COMPUTER, MAIN A, closed.

Ken Mattingly

Okay, Jack. And that's correct. I got it out of sequence. Would you put that COMPUTER, MAIN A, ahead of LM POWER?

Jack Swigert (CMP)

Okay, Ken. That's CB G&N, COMPUTER, MAIN A, closed, goes before CB LM POWER-1 and -2, open.

Ken Mattingly

That's correct. Jack, what we're doing is we've had the LM powering MAIN B, and we've had all these particular loads on it, and we're getting ready to secure LM power so we wanted to make sure that essential things like the computer, the platform, and all have dioded power supplies before we remove the LM power.

Jack Swigert (CMP)

Okay. Sounds good. Volts, 39.1; amps, 1.3.

Ken Mattingly

Okay. Thank you. All right, now panel 275: circuit breaker MAIN B, BATTERY BUS B, closed.

Jack Swigert (CMP)

Panel 275: CB MAIN B, BAT BUS B, closed.

Ken Mattingly

That's correct. Circuit breaker INVERTER POWER 1, 2, and 3, closed.

Ken Mattingly

That's correct. On panel 5: circuit breaker BATTERY RELAY BUS, BATTERY A and B, closed.

Jack Swigert (CMP)

CB BAT RELAY BUS, BAT A and B, closed.

Ken Mattingly

That's correct. Circuit breaker INVERTER CONTROL 1, 2, and 3, closed.

Jack Swigert (CMP)

CB INVERTER CONTROL 1, 2, and 3, closed.

Ken Mattingly

That's correct. On panel 3: AC INVERTER 1, MAIN A.

Jack Swigert (CMP)

Okay. Panel 3: AC INVERTER 1 to MAIN A.

Ken Mattingly

That's correct. Now, AC INVERTER 1, AC BUS 1, ON.

Jack Swigert (CMP)

Okay. AC INVERTER 1 to AC BUS 1 to ON.

Ken Mattingly

That's correct. And we're going to also put AC INVERTER 1, AC BUS 2, ON.

Jack Swigert (CMP)

Okay. AC INVERTER 1 to AC BUS 2, ON.

Ken Mattingly

That's correct. Back to panel 5. Circuit breaker EPS SENSOR SIGNAL, AC 1 and 2, closed.

Jack Swigert (CMP)

Stand by, Ken. I'm going to switch OMNIs here. You got cut out.

Jack Swigert (CMP)

Okay. Could you repeat that, please?

Ken Mattingly

Okay. On panel 5: circuit breakers EPS SENSOR SIGNAL, AC 1 and 2, closed.

Jack Swigert (CMP)

Okay. CB EPS SENSOR SIGNAL, AC 1 and AC 2, closed.

Ken Mattingly

That's correct. Circuit breaker EPS SENSOR UNIT, AC 1 and 2, closed.

Jack Swigert (CMP)

Okay. CBS—CB EPS SENSOR UNIT, AC 1 and AC 2, closed.

Ken Mattingly

That's correct. And circuit breaker CAUTION/WARNING, MAIN A, closed.

Jack Swigert (CMP)

CB CAUTION/WARNING, MAIN A, closed.

Ken Mattingly

That's correct. On panel 3: AC INVERTER, AC BUS 1 and 2, RESET and back to the center.

Jack Swigert (CMP)

AC INVERTER, BUS 1 and 2, RESET then center.

Ken Mattingly

That's correct. On panel 225: circuit breaker FLIGHT BUS, MAIN A and MAIN B, closed.

Jack Swigert (CMP)

Okay, panel—Okay, CB, FLIGHT BUS, MAIN A and MAIN B, closed.

Ken Mattingly

That's correct. CB CTE, MAIN A and MAIN B, closed.

Jack Swigert (CMP)

CB CTE, MAIN A and MAIN B, closed.

Ken Mattingly

That's correct. On panel 4: TELCOM, GROUP 1, AC1.

Jack Swigert (CMP)

TELCOM, GROUP 1, to AC1.

Ken Mattingly

And TELCOM, GROUP 2, to AC2.

Jack Swigert (CMP)

TELCOM, GROUP 2, to AC2.

Ken Mattingly

That's correct. On panel 3: S-BAND NORMAL, TRANSPONDER, to PRIMARY.

Jack Swigert (CMP)

S-BAND NORMAL, TRANSPONDER, to PRIMARY.

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Spoken on April 17, 1970, 2 a.m. UTC (54 years, 6 months ago). Link to this transcript range is: Tweet

Ken Mattingly

That's correct. We want to take POWER, SCE, to NORMAL.

Jack Swigert (CMP)

POWER, SCE, to NORMAL.

Ken Mattingly

All right, and POWER, PMP, to NORMAL.

Jack Swigert (CMP)

POWER, PMP, to NORMAL.

Ken Mattingly

That's correct, and UP TELEMETRY, COMMAND RESET to RESET and then NORMAL.

Jack Swigert (CMP)

UP TELEMETRY, COMMAND RESET to RESET, then NORMAL.

Ken Mattingly

Okay. On panel 2: UP TELEMETRY, CMC, to ACCEPT.

Jack Swigert (CMP)

UP TELEMETRY, CMC to ACCEPT.

Ken Mattingly

On panel 275: circuit breaker FLIGHT/POSTLANDING, MAIN A and MAIN B, closed.

Jack Swigert (CMP)

A panel 275: CB FLIGHT/POSTLANDING, MAIN A and MAIN B, close.

Ken Mattingly

That's correct. And configure for COMM on panels 6, 9, and 10.

Jack Swigert (CMP)

Okay, are you with me?

Ken Mattingly

All right. I assume you got that. Panel 5: circuit breaker IMU, MAIN A and MAIN B, closed.

Jack Swigert (CMP)

CB IMU, MAIN A and MAIN B, close.

Ken Mattingly

That's correct. Circuit breaker OPTICS, MAIN A and MAIN B, closed.

Jack Swigert (CMP)

Okay. CB OPTICS, MAIN A and MAIN B, close.

Ken Mattingly

That's correct. CB G&N, POWER, AC1 and AC2, closed.