Base Pioneer Radio Outputs
 

Howdy!

I have the base model 2013 Pioneer head unit, and I'm trying to decypher what outputs are available for use.

Edited x2!
Facts:
- The RCA output can be turned on or off by enabling the subwoofer.
- The RCA output are monaural.
- The RCA output may not be manipulated with the fader, but the volume knob and low-pass filter do affect it.
- The headunit outputs a high-level stereo signal to the rear fill speakers. This may have a high-pass filter built into the HU.
- The headunit outputs a high-level stereo signal to the front door speakers. This does not appear to be filtered.
- The rear amplifier (in the trunk) taps into the front door speaker signals.
- The rear amplifier outputs 4 wires to each dash pod (tweeter + midrange).
- The rear amplifier is a 2-way stereo crossover + amplifier with balanced inputs.

Just had a great discussion with a coworker about car audio. Someone who isn't him may be a design engineer within the automotive amplifier division of a major audio company.

His advice was to NEVER use unbalanced (RCA) signals in cars. Since the signal is referencing the head unit's chassis ground, it's pretty likely that your amplifier/DSP is referencing a slightly different ground. Ground loops allow noise in.

His suggestion was to use the speaker-level outputs to generate a "balanced" low level output. This uses a "differential attenuator" circuit that is pretty simple:
http://i709.photobucket.com/albums/w...ToBalanced.jpg

According to the Scion/Pioneer manual, our speaker outputs are 40W maximum. Speakers are a nominal 4 Ohm impedance.

P = V * I = V^2 / R

40 = V^2 / 4

Vmax = sqrt(10) = 3.162 Volts

Vrms = Vmax / sqrt(2) = 2.236 Volts

If I'm plugging into a MiniDSP: LINK to manual

The maximum input Vrms is 8. That means we don't have to attenuate the signal.

One more consideration should be made. Amplifiers can deliver mild amounts of DC offset, which are fine when you're driving a speaker... but not fine when that's sent through a DSP and amplifier.

To remove DC offset, you need to decouple the headunit from the DSP using a capacitor.

If the input impedance on the DSP is 48 kOhms (like on the MiniDSP), you can determine how much (or little) this capacitor will affect the signal. LINK to Calculator

A $1 bipolar electrolytic capacitor from Mouser, with capacitance of 100 uF will have a corner frequency of ~0.03 Hz. At -20dB/decade, that's atleast -50dB of floor below a 20Hz signal.

TL;DR - Don't use unbalanced RCA's if SQ is your target. Speaker-level outputs are balanced, but you might need to attenuate and adjust for offset.

From the last few days of research, there are quite a few amplifiers that accept balanced inputs.

Rockford Fosgate Power series
Kicker ZX series
Hifonics Brutus and Zeus serieses
JL Slash and XD serieses
Alpine PDX series
Image Dynamics Q series
Cerwin Vega "Vega" series
Infinity Kappa series
Orion XTR series
Soundstream Reference series

There are some high end amps like Audison, Zapco, Xtant, etc. Out of my price range ,and most modern (A/B) amps are clean enough to never be the bottleneck in a car environment... if they're set up and driven properly.

Now to find a combination of power levels and channels that will get er done.

Power Requirements:
The woofer is usually the limiting factor with 60 Wrms @ 4 ohm with 88 dB @ 1W @ 1m

Final output = 88 dB + 3 dB * log_2 (60)
= 88 + 3 * ~6
= ~106 dB

To match the woofers, our midranges will require:
W = 1 * 2^( 1/3 * (106 dB - 91 dB/W/m) )
= 2^(15/3)
= 2^5
= 32 Watts (per midrange) @ 8 ohms

To match the woofers, our tweeters will require:
W = 1 * 2^( 1/3 * (106 dB - 91 dB/W/m) )
= 2^(15/3)
= 2^5
= 32 Watts (per tweeter) @ 4 ohms

For Hifonics, that means:
ZRX600.4 + ZRX500.2 = $100 + 89 = $189
S/N Ratio = 90 dB

For Orion:
XTR600.4 + XTR250.2 = $170 + $115 = $285
S/N Ratio = 95 dB

For Kicker:
11ZX3504 + 11ZX200.2 = $180 + $120 = $300
S/N Ratio = 91 dB

For Rockford Fosgate:
T400-4 + T400-2 = $240 + $240 = $480
S/N Ratio = 85 dB

For Alpine
PDX-F4 + ??? = $309
S/N Ratio = 94 dB

Infinity
Kappa Four + = $280 +
S/N = 85 dB

JL
XD600/6 = $350
S/N Ratio = 104 dB

Cerwin Vega
VEGA500.4 + VEGA250.2 = $164 + $110 = $275
S/N Ratio = 90 dB

Soundstream
REVF4.400 + REF2.370 = $190 + $160 = $350
S/N Ratio = 102 dB

Precision Power
PC400.4 + PC360.2 = $150 + $130 = $280


I'll fill the list out more fully tonight.

There's also a spreadsheet that is detailing the install components. It will be useful in determining how much sleeving, heat shrink, wire, connectors, etc. This project needs to go properly, so it won't be "back of the napkin" anymore.
https://docs.google.com/file/d/0B1fR...4zMl9KajQ/edit

There's already an awesome thread detailing a tweak for the BRZ EQ. That's not the point of this discussion. I'm trying to learn about RTA and microphone-based EQ for tuning a DSP.

There's a software package (fancy Java script that interacts with audio devices) called "Room EQ Wizard" or REW. You can download it: HERE after registering with the forums. If anybody is lazy or paranoid, I'll send you the file.

Configuration:
The basic premise is that you have a sound card. It isn't quite perfect, since there is an inherent delay and some noise/filters/etc that color the outputs and inputs. You hook up a "loopback" which connects the line out (or headphone) to line in (or microphone) and quantifies the the deficiencies in a calibration file.

SPL Meter:
Once your sound card is calibrated, you can set up a microphone. The microphone level needs to be adjusted to accurately reflect the sound pressure level (SPL). After a gain-match, the software will be good to go.

http://www.hometheatershack.com/room...s/splmeter.jpg

RTA:
From here, you can send a wide range of signals (sweeps, noise, tones, etc) and monitor the frequency spectrum using the RTA feature. You may have to zoom out or in, to see the frequencies you're interested in... but it's fairly accurate (though there is some lag).

Using a white noise tone, you should be able to see the baseline response of the room/cabin/etc. With some tweaking of the EQ, you can flatten the response.

http://www.hometheatershack.com/roomeq/images/rta.jpg

Delay:
Using impulse signals (and a properly calibrated microphone and sound card) you can get a ball-park figure for system delays. Different frequencies are produced by different speakers... which are located closer or further from your ears (or a microphone). They will arrive at different times and this can manifest as destructive interference and cognative dissonance (it just doesn't sound good, psychoacoustically).

If your head unit or DSP has a delay or time align feature... use it to dial in the impulse response throughout the frequency range.

Waterfall plots are useful in determining reflections and reverberations. You can do those too, which may be quite relevant for decyphering an automotive cabin.

http://www.hometheatershack.com/room.../waterfall.png

The final step is to fiddle with crossover frequencies, roll-off rates, and individual speaker EQs. This is an iterative process, but determining the usable frequency range of each speaker is important. If there's significant overlap, decide which speaker is best suited to the instrument/sound that a frequency is used. It's trial-and-error mixed with personal preference. I'll update the thread with my own opinions once I get some (opinions).

:needpics:

DC-DC Buck-Boost Converter: this is a "DC-DC-USB-200" from Mini-Box who were gloriously fast with their processing and shipping.

The output is 12V steady, and will accept 8 - 32 Vdc. Current rating is ~10 A. It has an Automotive Mode which will automatically shut down when battery voltage drops too low (11.4 V under steady drain), and can delay turn-off to prevent thumps and allow for cooldown.

http://www.ft86club.com/forums/pictu...pictureid=6219

Mini-DSP: 2x8 Main board, Front Panel, Digital Panel, USB front Panel, U-MIK

http://www.ft86club.com/forums/pictu...pictureid=6215

2x8 main board: note the unbalanced RCAs, euroblock balanced inputs, and tasty tasty ICs (mmmm... chips... *drool* )

http://www.ft86club.com/forums/pictu...pictureid=6216

Front Panel: this houses a master volume knob (huge) and allows you to select between configurations. This will be great when demoing. You can retune the DSP to a passenger seat configuration with one click.

http://www.ft86club.com/forums/pictu...pictureid=6217

Digital Panel: This allows for coaxial (SPDIF) inputs and TOSLINK optical inputs. They threw in 2 optical cables too (fiber is the future!).

http://www.ft86club.com/forums/pictu...pictureid=6218

Speakers: Dayton RS180 7" + RS52 2" + Vifa XT25SC 1" are carry-over from previous projects (see the chipped paint) but all sound phenomenal.

http://www.ft86club.com/forums/pictu...pictureid=6214

Time to setup the laptop with Room EQ Wizard and configure the UMIK. It shant be said that OP failed to deliver. :happy0180:

Do work, son!

Power Ring will attach to the battery. 1/0 AWG stranded copper welding wire is used up to the distribution blocks. High current DC is effectively stick welding, and there's too much hype (and price gouging) surrounding the copper-clad aluminum and similar hybrid power wires.

http://www.ft86club.com/forums/pictu...pictureid=6231

Audiopipe may not be the highest end, but their power equipment is Stinger-grade.
http://www.ft86club.com/forums/pictu...pictureid=6232

2 x 900 Wrms for sub amps (@ 90% full tilt efficiency) + 6 x 60 Wrms for lows-mids-highs (@ 60% full tilt efficiency) + 10 Wrms for DSP (@ 90% efficiency). That's 240 Amps if the system drops to 11 V. A little headroom is fine, since any serious short will trip the breaker.
http://www.ft86club.com/forums/pictu...pictureid=6233

Water-tight and ready for action.
http://www.ft86club.com/forums/pictu...pictureid=6235
http://www.ft86club.com/forums/pictu...pictureid=6236

Distributing to two circuit breakers. The 150 A is for 6 channels of low-mid-high + DSP. The 200 A is for both sub amps.
http://www.ft86club.com/forums/pictu...pictureid=6237

Laid out and including fuses (< 12" from each amplifier).
http://www.ft86club.com/forums/pictu...pictureid=6238

Big picture, with the DSP, ground wires, amps, and signal routing. Lots of parts to go... but it's coming together nicely.
http://www.ft86club.com/forums/pictu...pictureid=6239

Steps remaining:
- Build a breakout harness for the factory amp. Never to cut wires if there's an option.
- Fuse holders
- Main amps
- Mini-DSP configuring
- Mini-DSP housing and connectors
- Install everything

Eventually I'll turn this into a build log, but for now it's a great sandbox for idea dumping. Hopefully someone will find it useful.

Super thanks to @RandomHero and his pinout sleuthing. LINK

I'm doing something different:
http://www.ft86club.com/forums/pictu...pictureid=6337

http://www.ft86club.com/forums/pictu...pictureid=6339

My Metra harnesses came in this week (one male, one female). They look like this:
http://www.deluxe-item.com/twh-950_03.jpg

The pinout for the headunit is:
http://www.ft86club.com/forums/pictu...pictureid=6338

where
D13:
1 = Right Rear +
2 = Left Rear +
3 = Right Rear -
4 = -----
5 = -----
6 = Left Rear -

D14:
1 = Right Front +
2 = Left Front +
3 = Accessory Power (IGN or VBAT) w/ 7.5 A upstream fuse
4 = Keep Alive Power (KAPOWER) w/ 20 A upstream fuse
5 = Right Front -
6 = Left Front -
7 = Ground
8 = Antenna
9 = Rear Amp Turn-on
10 = -----

I only really care about D14 and it's #1, 2, 4, 5, 6, 7, 9 wires.

- Wires #2 & 6 will go into a shielded twisted pair. This is the left channel input to the DSP.
- Wires #1 & 5 will go into a shielded twisted pair. This is the right channel input to the DSP.
- Wires #4, 7, & 9 will go into a relay. This will be the "remote" trigger for all equipment. Relay pin structure is the traditional:
http://www.rowand.net/Shop/Tech/imag...iringGuide.jpg

where
Wire #4 --> Pin 30
Wire #7 --> Pin 85
Wire #9 --> Pin 86 (I hear that an 86 is a big turn on... amirite guyz?)
Remote trigger --> Pin 87

The shield on both signal wires will be grounded at the DSP. Ground loops are no bueno, which is why you ground the shield on one end only.

Now we've got everything in line for the breakout harness and turn-on circuitry. Where to mount the power distribution, DSP, and amps... suggestions?

Thread Revival. The breakout harness has been made and so has the amp selection.

I chose to go with Precision Power (PPI) and a pair of PC640.4 amps.

http://www.hifimobile.fr/pc640.4a.jpg
http://www.hifimobile.fr/pc640.4d.jpg
http://i689.photobucket.com/albums/v...rPC640-4_3.jpg

4 ch. Class A/B
RMS Power 4Ω = 115 x 4
RMS Power 2Ω = 160 x 4
RMS Power 4Ω Bridged = 320 x 2
Damping Factor > 3000
Stereo Separation = 68dB
Balanced inputs (via 6-pin mini-DIN aka PS/2 plug)

They have a long history of solid amps, and the recent come-back with the Phantom series (and the active support on DIYMA) lend alot of credibility. It's also obvious from their ads that they aren't marketing to meatheads. Tolerances on components and details about amplifier stage architecture really get it done for me.

These amps will get toasty and may not have the latest in efficient technology... but they didn't cut any corners in the places that it matters. Plus with a huge amount of overhead, they should stay frosty.

To compliment the amps, I'll need to create some cables. The DSP will output 8 XLR plugs, and those will snake into 4 mini-DIN plugs at the amps. The pinout is:
http://www.clker.com/cliparts/a/9/f/...ut.svg.med.png

Pinout:
1 = Phantom Power -
2 = Phantom Power +
3 = Left -
4 = Right-
5 = Left +
6 = Right +
Shield = ground

In this configuration, the shielding has to be tied (which generally isn't kosher) but it's as close as I can get to perfection. I will look into a strain-relief method for the mini-DIN connectors, since they don't "lock" in and occasionally have been known to fall out during vigorous driving.

Built some cables this weekend. The inventory is:
1 x OEM harness breakout --> cable --> 2 female XLR connectors
2 x XLR male jack --> cable --> 3-pin phoenix block (balanced input for MiniDSP)
2 x 12-pin phoenix block (balanced outputs for MiniDSP) --> cable --> 4 XLR female jacks
2 x 2 XLR male connectors --> cable --> PS/2 (6-pin mini DIN) male connector (balanced input for PC640.4)

Cable is microphone cable (2 conductor, braided copper shield) from Monoprice.
Connectors/jacks are solder-cup units from GLS Audio.
PS/2 connectors are from Belkin patch cables.
Heat shrink is from a Harbor Freight value pack.

http://www.ft86club.com/forums/pictu...pictureid=6743

http://www.ft86club.com/forums/pictu...pictureid=6744

http://www.ft86club.com/forums/pictu...pictureid=6745

http://www.ft86club.com/forums/pictu...pictureid=6746

http://www.ft86club.com/forums/pictu...pictureid=6747

http://www.ft86club.com/forums/pictu...pictureid=6748

http://www.ft86club.com/forums/pictu...pictureid=6749

http://www.ft86club.com/forums/pictu...pictureid=6750

Oh, and winter is coming...
http://www.ft86club.com/forums/pictu...pictureid=6752

http://www.ft86club.com/forums/pictu...pictureid=6751

I'm thinking about using a MiniDSP myself, so I'm following this with interest.
Good work so far.

Thanks!

Got the 10x10 plug-in running on Tuesday. Super easy to use. Highly recommended.

Step 1: EQ the inputs to correct for issues with the source. You control frequency, gain (magnitude) and Q (steepness).
Step 2: Route the signals (Analog Input 1 --> Analog Outputs 1, 3, 5, 7)
Step 3: Set the high- and low-pass crossover frequencies and rate\type for each channel.
Step 4: Set time alignment (delay) based on the furthest speaker.
Step 5: EQ the outputs to correct for issues with the speaker, enclosure, and cabin.

Store up to 4 configurations and flash the DSP. If you get the front-panel the configurations can be selected from the driver's seat.

Some plug-ins let you adjust the system in real-time, and most now let you do automatic EQ (like Bose, Alpine, Clarion have) if you run Room EQ Wizard from a laptop with a calibrated microphone and soundcard.

http://cdn.avsforum.com/9/91/911a3ad...ach196467.jpeg

http://cdn.avsforum.com/3/36/367cfb6...ach196466.jpeg

This definitely works best with a multiple amp system. In my case it will just be two, primary and sub. I'll use the equalizer plugin most likely.