Derivative with prime for vector-valued function
Let me try to clarify the mystery here. The way you defined soln[t], without the underscore, means that the delayed expansion will only work when you use symbol t as the argument:
soln[u]
(* soln[u] - it returns unevaluated *)
When you type D[soln[t],t], you are just lucky that the first argument evaluates to {Sin[t], Cos[t]}, which gets differentiated. If you try any other letter, e.g.
D[soln[u],u]
(* Derivative[1][soln][u] *)
it returns unchanged.
This works in Mathematica 12.0
Remove[soln, t, x, y]
soln[tau_] := DSolveValue[ {
Derivative[1][x][t] == y[t],
Derivative[1][y][t] == -x[t],
x[0] == 0, y[0] == 1 },
{ x[tau], y[tau] }, t]
soln[t]
(* {Sin[t], Cos[t]} *)
soln'[t]
(* {Cos[t], -Sin[t]} *)
Don't know why your example doesn't work.
Besides the underscore, the problem is the SetDelayed := .
{soln[t_] = {x[t], y[t]} /.
First@DSolve[{Derivative[1][x][t] == y[t],
Derivative[1][y][t] == -x[t], x[0] == 0, y[0] == 1}, {x[t],
y[t]}, t],
soln[t],
soln'[t]}
(* {{Sin[t], Cos[t]}, {Sin[t], Cos[t]}, {Cos[t], -Sin[t]}} *)
Let me say, many user here think, SetDelayed is the best way to define nearly everything. The opposite is true. Use it as less as absolutly necessary.