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Very few high school catchers are ever drafted in the first round. When that happens it's because of their hitting ability. Brian McCann was drafted in the 2nd round and at the time there were many high school catchers with better pop times. A few years ago Jeff Clement was the first catcher selected in the draft (3rd Over all pick). He was quickley moved to first base. Buster Posey wasn't even a catcher in high school.
quote:
Originally posted by Catcherz_Dad:
These are fine numbers, but rank nowhere close to top in his class. If that were the case, I'd have a first rounder on my hands.


For a rising junior, yes they are. Sort through PG's database and you will see.

Can you tell me when a HS catcher was last drafted in the 1st Round?
Checking our database of players, here are some catchers that were drafted in the first rd out of high school since 2001. The number drafted out of college is much higher.

Rough average is one high school catcher drafted in first round or supplemental first round each year.
Many others were drafted in rounds 2-5.

Joey Mauer 2001 Twins
Jeff Mathis 2001 Angels
Jarrod Saltalamacchia 2003 Braves
Neil Walker 2004 Pirates (now plays 2B)
Max Sapp 2006 Astros
Hank Conger 2006 Angels
Devin Mesoraco 2007 Reds
Kyle Skipworth 2008 Marlins
Steven Baron 2009 Mariners
Kellin Deglan 2010 Rangers
Justin O’Conner 2010 Rays
Blake Swihart 2011 Red Sox
Brett Austin 2011 Padres
quote:
Originally posted by PGStaff:
I am a pop time/velocity first, accuracy second, guy.

Here is my thinking FWIW.

If you have a runner that steals 2B in 3.5 seconds and a catcher who throws 2.3 to 2B. You need a pitcher who can get it to the plate in less than 1.2 seconds to have a chance on a "perfect" throw. The accuracy is important, very important, in this case.

With the same 3.5 runner and 1.2 pitcher if your catcher pops 1.9 the throw only needs to be somewhere close.

Now if I have a 3.4 runner, my 2.3 catcher can be right on the money accurate every throw and he will never throw out the runner unless the runner slips or gets a bad jump. In 10 steal attempts this catcher will be 0 for 10.

On the other hand the 1.9 catcher with far less accuracy actually will throw this runner out once in awhile. Even the worst accuracy guys will be on the money once in awhile. And he doesn't need to be right on the bag with the throw because he gets it there almost a half second quicker. In 10 attempts this catcher will throw out some runners.

Obviously the best catchers have a quick release, strong arm AND they are accurate. But accuracy only counts when the ball gets there in time. That said, the secret is to improve in all areas.

gametimer, Those pop times and velocity are very good.



This is all well and good, but it assumes the runner is perfect all the time, they are not.

Some runners nobody throwing out just like some catchers nobody running on, few and far between though.

On average all things considered equally, on target, strong throws, with great releases, at any level will get 40% of base runners.

This is rare to get done consistently, on target, strong game throws, with quick releases.


Arm strength determining catchers loses allot of games, but it looks good. :*

Velocity is a small part of the equations of getting a ball to second and the most diminishing return of all factors of time to second.
Just a thought....

I've seen POP times that were below 2.0 that are a direct result of catchers at showcases cheating by quite a considerable amount. In other words, they are squatting right behind the plate (where a bat would take their head off on a swing) and then stepping substantially in front of the plate when releasing. My son is not a catcher so I'm wondering, from those of you who are or who have sons that are, am I off here or should there be a "line" from which they throw (like outfielders) during showcases.
quote:
Originally posted by TRhit:
pop times are just indicators---as noted sbove the pitcher and the runner also figure into the equation during a game--- there is no'CHEATING' WITH REGARD TO POP TIMES YOU EITHER THROW OUT THE RUNNER OR YOU DON'T


+100%.

You either throw the guy out or you don't.
Pitcher is a bigger factor than a guy throwing 70mph or 90 mph.

reminds me or my earlier history with another sport. Used to raise bird dogs...

A common reference and or distinction to describe a good prospect dog was show or meat.

The show dog looked good all day, but couldn't find a bird, the meat dog found them all day but couldn't win a show.

It was rare that that dog had both, and actualy the trend was to breed for show and was not good for the sport.
You guys can talk about "show" and "meat" all day but the fact is that those catchers who show above average catch and throw skills get college scholarships to big programs. Catchers (now more than ever) are a big defensive need. Shutting down a running game is important. If you have a solid catch and throw guy, you will teach your staff how to help shut down the running game. Why do we assume the guy with the hose isn't accurate?

To the OP, when the 2012 class were juniors, the average pop time for the top 15 pop times was ~1.88 with a velocity of ~80mph. Not far off from where he is.
Last edited by redbird5
quote:
Originally posted by redbird5:
You guys can talk about "show" and "meat" all day but the fact is that those catchers who show above average catch and throw skills get college scholarships to big programs. Catchers (now more than ever) are a big defensive need. Shutting down a running game is important. If you have a solid catch and throw guy, you will teach your staff how to help shut down the running game.

To the OP, when the 2012 class were juniors, the average pop time for the top 15 pop times was ~1.88 with a velocity of ~80mph. Not far off from where he is.



Point Yadi Molina 90mph throw, accurate one of the best throwers in the game, threw out 25%
of steal attempts last year, years before around 40%.

So at best at the highest level by the best 40% the best you can do.

Yadi Molina, Hymie Garcia, match up last three years not one runner thrown out on steal attempt at second with this pair. Garcia is slow to the plate and bad at holding runners on, and he's left handed.

So you have the best throwing catcher matched up with a average or below average pitcher on holding runners on, and you have nothing. :]

The teams that spend the time working with pitchers on times to plate, and on holding runners on, are way ahead.

They also tend to have well rounded catchers that can hit, block, handle pitchers, get called strikes*which is my measurement of a catcher* and can run, will win today, especially with the new bat affects... all hands must be offensive today.
showme,

You make some good points that is for sure. However, I think you would agree that all important things are not based on statistics. Maybe I should say any single statistic in the case of a catcher.

All phases of catching are important. When we talk about “pop times” it is just “one” of many important things. Never should it be downplayed as unimportant. Regarding pop times, there is no question that “in-game” pop times are the best measurement. However, the next best measurement is “non-game” pop times. Over the years we have compiled both on many catchers (thousands of catchers) in nearly every case the catchers with the top non-game pop times also had the top in-game pop times. Never have we seen a 2.3 catcher be able to “cheat” enough to pop a 1.8 pop time. I actually believe the cheating usually doesn’t even help the catcher achieve a much better pop time. The quickest we have ever recorded didn’t cheat much, if at all. Catchers with great technique and strong arms always have the best pop times. Those that cheat so much they lose good technique are just hurting themselves. Gaining too much ground takes too much time. Much of the reason for workout pop times being better has to do with the controlled environment. All that said… any catcher that can cheat and throw a 1.7 is very talented. Maybe even talented enough to do it without cheating some day.

BTW, we have thousands of catchers videos from various showcases over the years that people can view for free. I think people sometimes exaggerate the amount of cheating that goes on. It is darn near impossible to catch the ball in front of home plate because the ball is not lobbed to the catcher and it is from a BP distance. At one time we actually had a hitter swing and miss pitches… we had a catcher get hurt. Then we had a staff member just hold the bat over the plate… we had a catcher get hurt. It’s much easier and safer to just look and see who is cheating and who isn’t. It’s not very difficult to pick out.

Now about statistics and Molina…

Last year McCann (all star catcher) started 118 games behind the plate. He had 133 runners attempt to steal. Molina started 131 games and had 65 SB attempts. McCann had 104 bases stolen while Molina had 46.

It’s kind of like the best outfield arm keeping runners from advancing. Seldom do we see the best arms throwing out the most runners because only the +runners would ever test that arm. The great arm is respected, be it an outfielder or catcher.

Anyway this throws some of the stats out the window. Those who do try to steal a base are the +base stealers, no easy CS. Once again, this is based on the ability to get the ball to 2B accurately quicker than the time an individual runner can get to 2B. That is the pitcher to pop + In-Game pop time vs. the runners steal time. Obviously there are variables involved which include the consistency of these times, pitch types and location. Everyone understands how important the pitchers time to the plate plays into the equation as well as the ability to hold runners. If you have a 1.2 pitcher and a 1.9 catcher, don’t run with a 3.4 runner, especially in a fastball count.

Texas Rangers were 5th among all MLB teams in stolen Bases last year. In the World Series (7 games) they stole “one” base. They only attempted 4 SB. All 4 by the same player (he was thrown out 3 times).

That is what is commonly referred to as stopping the running game. Texas catchers also shut down the Cardinals, but the Cardinals were 29th among 30 MLB TEAMS in SBs.

So it wasn’t the statistics, it was Molina’s ability and reputation that stopped the Rangers running game, just as it stops most teams from running.

Everyone realizes that good pop times and strong arms alone are not anywhere near enough to be a great catcher. However, there comes a point where the catcher needs to have the ability to get the ball there on time. Because the guys who steal bases at the highest levels can really run much faster than the average high school player. In fact, the entire game gets faster at every level.

This is actually a good discussion with many good points. I hope some young catchers read it.
quote:
Originally posted by showme:
Point Yadi Molina 90mph throw


Just wanted to make sure that any numbers thrown out there are realistic for those trying to gauge their own skill-set.

Yadi is 83-86 out of his crouch. Not 90. Can he crow hop close to 90? There is a very good possibility.

But the MLB average arm strength out of crouch is around 78-82 MPH.

This is info directly from more than one full-time scout.

A lot of people tend to forget that 80 MPH out of your crouch is a cannon!
PG,

Very well said aas usual. For some reason today, I cannot articulate well but you took the words right out of my mouth.


CCJr,

Thanks for the clarification. Yadi has a cannon but I didn't think he was 90 from behind the dish.

BTW, did you happen to get a time on Yadi in the NLDS Game 7 throwing out Utley on the breaking ball? Utley had a great jump and was still out by a step. I timed it 6 times and was right around 1.72 every time. Best time I have ever gotten.
Last edited by redbird5
CCJR,

First of all, I'm sure you know much more about catching than I do and I respect that, but I have to dispute the 78-82 average velocity.

Where do you get that information? I have never seen an average velocity for MLB catchers. How is that information compiled?

Personally I think if scouts said that, it was just because they didn't know for sure, anymore than they would know the MLB average velocity at any position other than pitchers. I'm not sure that information even exists. Then again you never know these days with all the new technology.

We have actually recorded velocity of many high draft picks and MLB catchers when they were high school age. 78 is excellent for a high school player and I guess 80 could be described as a cannon. Once in awhile we get mid 80s and even higher in a few cases. I will admit that some of the best pop times we have ever recorded were by catchers with 78-82 or slightly higher velocity. Some were by catchers with lower velocity. there are guys who get it there quickly with low 70s velocity.

For the record, in most cases this is not the result of cheating. And most often these are the kids going high level college or getting drafted.
Last edited by PGStaff
Wow! I haven't been over here in a while and this is an awesome discussion by all. Thanks for all the input. I'll have my son read all this. I think it is all useful information. Just an update, he averaged 1.9 on two throws this fall in our scout league scout day with a velo of 78 so pretty close to what he did at the showcase earlier this summer. His summer coach told me he had him right at 2.0 most of the summer in game situations, but it is hard to tell as he just doesn't get the opportunity to throw down much in games. Not many runners. Not sure if it was due to my son or our pitchers holding runners well. Probably a little of both. Anyway, thanks for the input. This board never ceases to amaze me with the amount of knowledge and the willingness to share it.
Nice comments appreciated PG. yes I think stats are measurable. Take CERA for example. Mcain Catcher's ERA is much better than Molina's. 3.61 vrs 3.87

http://espn.go.com/mlb/stats/f...on/c/sort/catcherERA

and yes reputation does keep some from running but is over rated. IE Could have ran at will with Garcia.

And the amount of steal attempts seem to be way down, ie. unnecessary to win a World Championship :]

Need to see the numbers on CS

http://espn.go.com/mlb/stats/f...ealingPct/order/true

this POP thing is about something that's barely over the Mendoza line. I wonder at times if it's statistically irrelevant.


What I am seeing in travel ball is pitchers becoming the focus on holding runners on. Several pick off per series is common recently.

I think as a result of having 1.9 guys behind the plate and still being able to steal at will, is bringing this change to a field near you.
Last edited by showme
PG,

The information came from two extremely credible scouts (one who's also a roving instructor within an organization) whose word I would take for face value every time, no questions asked.

Many scouts I know actually do spend time getting the release velocity of balls to second base (and at a lot of other positions as well) and I know for a fact that both of these gentlemen spent time last spring training doing exactly that. Is it an exact average? Nope. It is a very close estimate based on a fairly decent sample size.

Keep in mind we are talking about an average. Some higher, some lower. But we are talking about the whole here. Not the select great arms in the game. There are catchers in the big leagues who come out of their crouch around 75 MPH. There are also a few catchers in the big leagues who can get it up over Molina's average. I do NOT know this as fact whatsoever, but I once heard from a fairly credible source that Taylor Teagarden was high 80's to 90 MPH out of his crouch. Absolute hose. Matt Wieters was also the closer at GT and was clocked routinely at 94-95 off the mound. I am sure he is upper 80's out of his crouch as well if not higher. But most of the catchers in the big leagues aren't anywhere near that velocity.

You mentioned that you have seen some of the top HS guys around that velocity. The thing to remember is that those young guys who are being looked at as a potential draft pick are being looked at in part because of the strength of their arm. I have no statistical basis, but I would venture a guess that the collective out of crouch velocity averages in Double-A are probably better than those in the big leagues. Healthier arms, younger, more athletic players. In time, however, those velocities will likely diminish as the player gets older. They will still have a big league job, however, because of all the other intangibles they bring to the table at that point in their careers. Guys like Jason Varitek, John Buck and Brian Schneider still spend time behind the plate at the big league level, yet their ability to throw out runners is horrendous. They do so because they are able to offer other important qualities to the ballclub. But their out-of-crouch velocities are included in a scout's approximate averages of a big league catcher's throw.

The thing to remember here is that this is all one big math problem. Get rid of the ball around or under .75 with a release velocity of around 75 MPH (127.28 feet per 1.157 seconds, correction thanks to Xan!) = 1.91 seconds. Calculate for the natural deceleration of the ball through the air and you are looking at a throw which is right around the MLB average to 2B. There are HS catchers in the country who can get down around that mark. A 2.0 throw at the MLB level is no different than a 2.0 throw at the HS level if we are strictly talking about time. So to say that there is a big jump in velocity of the catchers at the MLB level simply because they are big leaguers doesn't really make much sense to me. MLB catchers are still, on average, throwing 1.9-2.0 to 2B. So are some of the best HS catchers in the country.


Redbird,

I have seen video of that throw, but I don't trust my internet connection/frame-rate enough to believe that my timing of that throw is accurate. I am, however, getting a similar time. Incredibly quick release, as he was already up out of his crouch before the ball even hit his glove. He actually cheated a bit on that throw (and still got the strike call).
Last edited by CCJR
quote:
Originally posted by CCJR:
The thing to remember here is that this is all one big math problem. Get rid of the ball around or under .70 with a release velocity of around 75 MPH (126.5 feet per 1.25 seconds) = 1.95 seconds. Add in the time it takes travel the last 6 inches and calculate for the natural deceleration of the ball through the air and you are looking at throw which is right around the MLB average to 2B. There are HS catchers in the country who can get down around that mark. A 2.0 throw at the MLB level is no different than a 2.0 throw at the HS level if we are strictly talking about time. So to say that there is a big jump in velocity of the catchers at the MLB level simply because they are big leaguers doesn't really make much sense to me. MLB catchers are still, on average, throwing 1.9-2.0 to 2B. So are some of the best HS catchers in the country.


Your math is slightly off. If a player has a release time of .70 and they throw the ball 75mph their pop time would be 1.85.

The distance from the back point of home plate to the middle of 2B is 127.28ft (or 90*the square root of 2 for you geometry guys!).

When the ball is thrown 75mph it is traveling 110fps (feet per second), which means it would travel the 127.28ft in 1.157s.

So...if a player has a release of .7s and is throwing 75mph, the ball will get there in around 1.857s (.7+1.157).

This is based on the catcher releasing the ball directly over the back point of the plate and the middle infielder catching the ball directly over the middle of 2B. For the purposes of math, you must assume those two things to be true. It would be impossible to measure results based on anything other than that (catcher closer or further from home plate, middle infielder catching the ball in front of the bag, wind, friction of the air against the ball, etc.).

I didn't think that I'd ever get to put my engineering degree to use, ha!
quote:
Originally posted by Catching101:

Your math is slightly off. If a player has a release time of .70 and they throw the ball 75mph their pop time would be 1.85.

The distance from the back point of home plate to the middle of 2B is 127.28ft (or 90*the square root of 2 for you geometry guys!).

When the ball is thrown 75mph it is traveling 110fps (feet per second), which means it would travel the 127.28ft in 1.157s.

So...if a player has a release of .7s and is throwing 75mph, the ball will get there in around 1.857s (.7+1.157).

This is based on the catcher releasing the ball directly over the back point of the plate and the middle infielder catching the ball directly over the middle of 2B. For the purposes of math, you must assume those two things to be true. It would be impossible to measure results based on anything other than that (catcher closer or further from home plate, middle infielder catching the ball in front of the bag, wind, friction of the air against the ball, etc.).

I didn't think that I'd ever get to put my engineering degree to use, ha!




Xan, You're absolutely right (post corrected). I actually did the math correctly when I wrote it out. Saw 110 feet and for some reason added the .15 to 1.10 instead of 1 second flat. So the point I am trying to make is that a .75 (corrected from .70) release time with 75 MPH gets you around or under the average MLB pop time...not the average HS time or NCAA D1 time; it's the average Major League Baseball time to 2B. (Change was applied to original post, Thanks for the correction Xan)

We can be as specific about the exact measurements as we want to (I might ask to take advantage of that engineering degree from time to time Xan, lol). But my point remains that there is no big jump in velocity in regards to the catchers who are able to generate pop-times under 2.0 seconds. Regardless of the level they are playing at. You can get to 1.9 or lower with a sub-75 MPH arm. Sure it might take well-above average athleticism, but when you think about the math, a 78-82MPH avg release velocity for a big league catcher shouldn't seem so unrealistic. Especially when you go back and take a look at the average pop-times for high school catchers around the country. It's not near 2.0. Last time I checked it's somewhere around 2.3+ (PG?).
Last edited by CCJR
Are you guys taking the loss of velocity over that distance into account or just using release velocity over the entire distance?

We all know that 75 mph at release is going to be significantly less than that at 127 feet.

Pitchers throwing 90 mph from approximately 55 feet release point will often register around 83 mph at the plate. The slower the release velocity the bigger (faster) the drop in velocity over any distance (I think).

So if I am correct, 75 mph over 127 feet should lose somewhere in the neighborhood of what??? 15-16 mph? If that is somewhere close, then the average speed over that distance would be about 66-67 MPH. Which would change the pop time considerably.

What am I missing?

Anyway, I still having a little trouble believing that 78-82 average velocity. First of all that is a big range to begin with. While I’m sure there are some old veterans hanging around that might only throw 75 these days, I actually know most of the younger guys. Among that group I would think 82 would be about as low as I would expect. Then again I have seen some great pop times from 78-82 velocity guys. Anything in that area with a quick release = very good pop time!

Sorry, I don’t know what high school average is. Actually that would be impossible to know.

However, I can take all the high school catchers that we have in our database and come up with an average time. Problem is… Would that average tell us anything important? Maybe it would be easier and more worthwhile to list the top 50 or 100 pop times and velocities we have recorded over a certain period. I do know the top two velocities both became pitchers in the SEC. The other problem is that most of the pop times we have recorded are not game pop times, but I’m guessing there would be a lot of familiar names on the list.
PG,

No, that is not taking loss of velocity into account. That is impossible to calculate because of all the variables: head wind, tail wind, does the ball have true backspin and travel straight, some sidespin and cut/run, etc. The only reason the ball loses velocity is because of the friction against the air. If it were in a vacuum the velocity would remain constant.

It's not perfect, but it's probably as close as we're going to get...at least from me!
PG,

We have gotten a bit too technical here with the exact measurements, but it really wouldn't change the poptime at all considering that nobody refers to the deceleration of the ball when referencing release velocities from catchers.

It still comes down to this. 2.0 in high school is NO different than 2.0 in MLB. Just looked at the recorded pop-times during the PG Northeast Showcase. The average of the BEST throws of each catcher there was 2.13, with an average velocity of 76 MPH. Best two throws were 1.97 and 1.96, both with release velocities of 80 MPH. This is a sample size of 31 catchers, most of whom could be considered college prospects and probably doesn't represent the overall averages from the majority of the high school rosters out there. Just the cream of the crop.

Having spoken to countless scouts, roving catching instructors and organization personnel over the years, and timed a great deal of catchers at that level myself, the accepted consensus is that the MLB average throw is around or just under 2.0 seconds. Not 1.7, not 1.8, not 1.9...We are talking about the average.

If the MLB average velocity were higher than 78-82, more MLB catchers would throw sub 1.8s to 2B, and they don't. If they did, you'd have to make the argument that MLB catchers don't have the ability to get rid of the ball as quick as HS catchers, but make up for it with dramatically superior arm strength. While I do believe that age does become a factor in quick release ability, it still doesn't prove MLB catchers are throwing harder than 80MPH on average. It is still just math.
Last edited by CCJR
Please understand that these are mostly workout pop times. So in most every case they would be quicker than actual game pop times. This is taken from thousands of catchers since 2003.

Christopher Kirkland 6-3 190 1.72
Dane Phillips 6-2 195 1.72
Tyler Marlette 5-11 195 1.72
Luke Bailey 6-0 195 1.73
Taylor Hightower 6-1 190 1.73
Austin Maddox 6-3 220 1.75
Tyler Marlette 5-11 200 1.75
Brandon Sedell 6-1 208 1.75
Austin Hedges 6-1 185 1.75
Andrew Susac 6-1 190 1.75
Cameron Gallagher 6-3 210 1.75
Robert Scott Leffler 6-2 175 1.75
Eric Haase 5-11 185 1.75
Cameron (CJ) Saylor 5-10 185 1.75
Christian Garcia 6-4 190 1.75
Torre Langley 5-9 175 1.76
Ryan Babineau 6-2 190 1.76
Tucker Barnhart 5-11 170 1.76
Austin Maddox 6-4 220 1.76
Max Stassi 5-10 187 1.76
Christian Carmichael 6-0 187 1.76
Geoffrey Rowan 5-9 185 1.76
Taylor Hightower 6-1 190 1.77
Cameron (CJ) Saylor 5-10 180 1.77
Yasmani Grandal 6-2 205 1.78
Stefan Sabol 6-2 205 1.78
Tyler Austin 6-2 200 1.78
Jacob Felts 6-1 196 1.78
Tyler Marlette 5-10 195 1.78
C.J. Bressoud 6-1 185 1.78
C.J. Bressoud 6-1 185 1.78
Edwin Roman 5-11 210 1.78
Geoffrey Rowan 5-10 180 1.78
Blake Austin 6-1 205 1.78
Cameron Garfield 6-1 195 1.78
Andy Hawranick 6-3 185 1.78
Michael Zunino 6-1 185 1.79
Drew Stiner 6-1 210 1.79
Cameron (CJ) Saylor 5-10 170 1.79
Ryan Saldivar 5-11 178 1.79
Angel Salome 5-9 188 1.79
Chris Okey 6-0 175 1.80
William (Wil) Myers 6-3 190 1.80
Brandon Stephens 5-11 185 1.80
Max Kwan 6-3 200 1.80
Casey Rasmus 5-11 180 1.80
Elvin Soto 6-0 188 1.80
Jason Goldstein 5-11 195 1.80
Michael Zunino 6-2 192 1.80
Jacob Stallings 6-4 175 1.80
Chuck Robinson 6-1 215 1.81
Torre Langley 5-9 170 1.81
Shane Rowland 5-10 175 1.81
Ryan Babineau 6-2 190 1.81
Taylor Hightower 6-1 195 1.81
Jonathan Walsh 6-3 211 1.81
Stryker Trahan 6-1 215 1.81
Christopher Chinea 6-0 205 1.81
Tyler Dial 5-11 185 1.81
Brett Basham 6-2 180 1.81
Here is a list of the highest catcher velocity... also only over the past 7 years. The repeats are because the player threw that velocity at more than one event.

Austin Maddox 6-3 220 90
Case Nixon 6-2 185 88
Danny Rams 6-2 218 87
Anthony Shawler 6-2 180 87
Kyle Skipworth 6-3 195 87
Bryce Harper 6-3 195 87
Brad Lamberti 6-0 200 87
Michael Roberts 6-1 180 86
Torre Langley 5-9 175 86
Blake Evans 6-1 205 86
Christopher Kirkland 6-3 190 86
Jonathan Candelier 6-0 190 86
Edmond Sparks 5-11 195 86
Moises Montero 6-2 215 86
C.J. Bressoud 6-1 185 86
Scott Williams 6-2 175 86
Ronnie Healy 5-11 185 85
Eric Haase 5-11 190 85
Andrew Dunlap 5-10 185 85
Craig Hayes 6-1 210 85
Vincent Tranchina 6-2 190 85
Vincent Tranchina 6-2 190 85
Cameron (CJ) Saylor 5-10 185 85
Stryker Trahan 6-1 215 85
Stryker Trahan 6-1 220 85
Jason Jaramillo 6-0 200 85
John Kresta 6-1 205 85
Austin Maddox 6-4 220 85
Tyler Marlette 5-11 200 85
Edmond Sparks 5-11 195 85
Danny Rams 6-2 220 85
Angel Salome 5-9 188 85
Torre Langley 5-9 170 85
Austin Hedges 6-1 185 85
Blake Swihart 6-1 175 85
JC Coban 6-1 205 85
Brent Lozano 5-10 190 84
Yasmani Grandal 6-2 205 84
Tyler Klein 6-1 180 84
Randy Rosa 6-2 240 84
Michael Roberts 6-0 175 84
Michael Roberts 6-0 185 84
Daniel Elorriaga-Matra 6-0 178 84
Anthony Shawler 6-2 180 84
Joel Collins 6-1 195 84
Kyle Lafrenz 6-3 200 84
Tyler Marlette 5-11 195 84
Garrett Boulware 6-2 200 84
Colt Morton 6-5 205 84
Roidany Aguila 5-11 170 84
Cameron (CJ) Saylor 5-10 180 84
Cameron (CJ) Saylor 5-10 180 84
Cameron (CJ) Saylor 5-9 165 84
Cameron (CJ) Saylor 5-10 170 84
Tim Remes 6-0 180 84
Will Fletcher 6-3 185 84
Craig Hayes 6-1 220 84
Drew Stiner 6-1 210 84
Tyler Austin 6-2 200 84
Robert Scott Leffler 6-2 175 84
Anthony Gonzalez 6-5 245 84
C.J. Bressoud 6-1 185 84
Jarrod Saltalamacchia 6-4 190 84
Luke Bailey 6 0 195 84
Jacob Stallings 6-4 175 84
Dane Phillips 6-2 195 84
Bryan De La Rosa 5-11 205 84
Eric Haase 5-11 185 84
Logan Koch -11 165 84
Jared Cheek
Mario Amaral 6-1 205 83
Scott Williams 6-2 195 83
Chuck Robinson 6-1 215 83
Reed Anthes 5-8 190 83
Joshua Minder 5-11 205 83
Luis Martinez 5-11 180 83
Eddy Rodriguez 6-0 195 83
Tyler Patzalek 5-9 185 83
Rafael Sierra Jr. 6-0 203 83
Tyler Bullock 6-2 205 83
Adam Donachie 6-2 175 83
Robert Scott Leffler 6-2 175 83
Brandon Stephens 5-11 175 83
Brandon Stephens 5-11 185 83
Benji Rojas 5-11 210 83
Maximiano Ramirez 6-2 190 83
Cameron Gallagher 6-3 210 83
Frankie Romano 6-4 225 83
Last edited by PGStaff
CCJR,

Yes I always prefer to stay away from anything overly technical. It's just the math don't work if it doesn't contain all the factors... Like deceleration. The decelelaration changes the result. But in general I know what you mean and that's good enough.

You guys are the catching experts, I tend to look at everything from a scouting perspective. I just got off the phone with a MLB VP who was a very successful scouting director. Being this topic was on my mind I asked him if he knew what the average MLB Catcher velocity was. He said 1.9 to 2 Flat! Smile I said I know that but what about velocity. He said he has no idea what that would be, their catchers are middle 80s.

That's a little closer to what I would have thought. I base that on the catchers we see drafted more than anything else.

As I mentioned earlier we have seen many 78-82 catchers produce very good MLB pop times. So I can see where the information you got could be correct. It sure does make me want to find out for sure. maybe I'm just too caught up in the Wieters, Mauer, Posey, type arms.

Anyway, it's fun to discuss these things with knowledgable people.
PG,

Thanks for posting all of those pop times and velos...VERY COOL!

quote:
Originally posted by PGStaff:
I just got off the phone with a MLB VP who was a very successful scouting director. Being this topic was on my mind I asked him if he knew what the average MLB Catcher velocity was. He said 1.9 to 2 Flat! Smile I said I know that but what about velocity. He said he has no idea what that would be, their catchers are middle 80s.

That's a little closer to what I would have thought.


Thats what I would have guessed too...somewhere in that neighborhood.
quote:
Originally posted by showme:
If they are throwing mid 80's with 1.9 and 2.0 pop times, wouldn't that indicate very slow release times, based on your all's numbers or formulas?


No, not exactly. I was just using the number .7s release time because thats what CCJR had mentioned. In my opinion, a release time of .7s is EXCEPTIONALLY fast...I think a more realistic time is going to be around .8-.9s.
Catching101,

There is video available on most of the players listed in that above post. As you probably know, all the video is free for viewing.

Here is an example from one of the top catchers available for next year's draft. Only this was filmed from his high school years. I don't know how to post the video alone, so here is his profile where the video is located. There are a couple different videos of him catching during workouts. You might need to scroll using the arrow to get to them. Also you can scroll down on the page to see reports from various events he attended.

Mike Zunino
Last edited by PGStaff
quote:
Originally posted by showme:
If they are throwing mid 80's with 1.9 and 2.0 pop times, wouldn't that indicate very slow release times, based on your all's numbers or formulas?


That is exactly what it would indicate!

However, it is not true.

Here is a clip of Yadier molina getting rid of the ball in around .60 seconds.

http://s1129.photobucket.com/a...t=Molina-Release.gif

Note that the clip is playing with every frame taking .03 seconds instead of the standard .033 of a 30fps video. But this is what exceptional looks like.

I have a bunch of other clips (Will post links sometime tonight or tomorrow) of multiple MLB catchers under .75 on their release. I am still in the process of gathering video clips, but will certainly let everyone know what I find and will provide video evidence.

They are NOT slower. They are incredibly fast. They just don't throw as hard as everyone thinks.
redbird 5 Dave Duncan in games when Yadi was younger with game throws 1.6...he would just shake his head and laugh. Wouldn't tell the time cause he knew folks would question his watch.

Which raises the question do game throws for some improve over show times?

I believe release times is a better indicator of catcher potential than how hard one throws, if given one measurement to judge.

It really takes all three MPH, Release and accuracy to throw someone one out, and a fourth, pitcher actually holding the runner on with MPH actually being the lessor of the four things needed to actually throw a runner out. *actually five another player has to get to the right position, the right time, be able to catch the ball and make a tag, no small feat in itself.*

No matter how hard a catcher throws it does not overcome a bad pitching staff when it come to base runners, release times or accuracy.
Last edited by showme
We have seen catchers who have thrown quicker pop times in games. One thing to remember is the location of the pitch has a bearing on the over all time. However, for the most part, even without any cheating, the workout times will be lower. This is due to the controlled environment. In 5 consecutive throws, a catcher could have one or two where everything falls in place. In Game, it's one do or die chance.

Is there an actual formula that under normal circumstances gives how much velocity is lost over 127 feet? (I understand there are variables)

Also I'd like to know what the difference in time there would be between 78 or 80 MPH and 85 MPH over that distance. I'm not very good at math.

I do think most catchers can improve their transfer times easier than improve their velocity. Though both can be improved. That is why we started doing both pop times and gun reading years ago. It is another way to show what a catcher needs to work on. Good velocity vs not so good time... Good time vs not so good velocity.
quote:
how much velocity is lost over 127 feet


yes there is loss but it's minor..went looking for an answer found this, very good. The biggest gain are in release times. 1/10 huge in total time.



A catcher’s throw down to second base to nab a potential base stealer is in essence a 3-part skill that can be evaluated for strengths and weaknesses and improved. The three components are: (1) Ball Control and Release Efficiency, (2) In-flight Velocity, and (3) Accuracy. On average a catcher’s success rate is just 25% and, at best, around 50%. Each of the three components of the throw contribute to the success or failure. Without evaluating each part and just practicing the throw, success will only increase slightly. The following is the three part evaluation process, presented in reverse order.

Accuracy is the easiest to evaluate and most observable component, irrespective of the other two parts. Rating a catcher on this portion is just a matter of noting whether or not the ball arrives at the 9″x18″ target some 127 feet away. Practice usually results in improvement unless the throwing mechanics are completely wrong. A simple observation of the act of throwing will tell you if the catcher is doing it right or wrong.

In-Flight Velocity.Once I get the players arm warmed up to game readiness, I have him make 6 throws from a crow hop. He can use whatever mechanics he likes to generate the maximum velocity he can. I time that on the Jugs gun. I get 6 readings; I throw out the fastest, and the slowest, and average the other 4. This gives me an average max velocity. I then have him get into his crouch. I throw him pitches down the middle and have him throw down full speed. I again have him do this 6 times and use the same method to determine his average maximum throw down velocity. After timing over 500 catchers this way I have found that a drop in velocity of less then 3% from max velocity to throw down velocity is the goal. More of a drop then that and there is something in that player’s mechanics of his throw to second base that is excessively “eating” velocity. At that point a close evaluation of those mechanics is needed.

Velocity is all over the map for me when I look at the database of kids I have timed. If I look at the High School Max-velocity kids as a group the low side is in the low 60’s. Good for HS would be low-mid 70’s, excellent would be 78-82. In the College group the low side is 70-74, good would fall in 75-79, excellent would be 80-84, 85+ would be a serious prospect as far as velocity goes.

Ball Control & Release Efficiency. To evaluate this component I use the following technique. I position the player in front of the black Jugs tarp that hangs behind home plate in our batting cage. I measure out 10 feet and draw a line. It must always be 10 feet. The player puts his toes on the line facing the black screen. The coach kneels in front of the catcher, slightly off center. The player gets into his secondary receiving position. The coach throws the “pitch”. Player completes a full speed throw into the screen. The stopwatch is started when the ball hits glove and stopped when the ball hits the screen. The player must sit on the strike and not move until the ball hits his glove as if it were an 0-2 count late in the game. Because the catcher is releasing the ball about 5 feet in front of the screen, arm strength has little to do with the time recorded on the stopwatch. The drill gives an accurate measurement of how fast the athlete gets it in the air. You can also have the catcher throw directly into the fence backstop, but I find the tarp makes a more precise sound when hit, making it easier to ensure a good clocking.

Ave release times for High School players would be under .85 down to .78, good would be .78 down to .70, and excellent would be .69 down to .65. Below .65 is very fast for HS. For the College players in my database the average release times would be under .78 down to .70, good would be .70 down to .65, and excellent would be .65 down to .59. Below .59 is really moving. Fastest release I have ever timed at any age is a 14yr old that throws in the .49-.52 range. He is just amazing.

While some critics of the evaluation process mention that it does not incorporate all the variables of a game situation, it does give a good base for comparison between any groups of players. Using these measurement techniques allows me to break the throw down into its 3 different phases and better be able to attack the area of greatest weakness in any given player.

I have a number of college players that have guns for arms, velocities out of crouch 85MPH+ but have slower releases then a number of high school kids. The above evaluation technique has enabled me to isolate what section of their throw is the weakest and look for the flaws that are eating time. Likewise I have some players that have lightning fast releases but 65MPH velocity. Again it helps me direct their training efforts in the area of greatest weakness.

http://www.catchingcamp.com/ar...-a-catchers-release/
Last edited by showme

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