Conversion LED with high color rendition index

The invention claimed is: 1. A conversion LED comprising: a chip which emits primary radiation; and a luminescent substance-containing layer which is on the chip or positioned so that it intercepts the primary radiation emitted from the chip and which converts at least some of the primary radiation of the chip into secondary radiation, wherein the luminescent substance-containing layer comprises a first luminescent substance of the A 3 B 5 O 12 :Ce garnet type which emits yellow green and a second luminescent substance of the MAlSiN 3 :Eu calsine type which emits orange red, the peak wavelength of the primary radiation lies in the 435 nm to 455 nm range, the first luminescent substance is a garnet having essentially the cation A=75 to 100 mol. % Lu, remainder Y and a Ce content of 1.5 to 2.9 mol. %, where B=10 to 40 mol. % Ga, remainder Al, the second luminescent substance is of the basic MAlSiN 3 :Eu type, where M is Ca alone or at least 80% Ca and the remainder of M is Sr, Ba, Mg, Li or Cu, in each case alone or in combination, wherein some of the Al up to 20%, can be replaced by B, and wherein N is optionally partially replaced by O, F, Cl, alone or in combination, and the conversion LED emits mixed light of primary light and secondary light, said mixed light having a CRI between 96 and 98 with good red rendering with R9=90 to 99. 2. The conversion LED as claimed in claim 1 , wherein the second luminescent substance contains Ca alone as component M. 3. The conversion LED as claimed in claim 1 , wherein the second luminescent substance contains 0.2 to 1.3 mol.-% Eu as doping which is attributed to the component M. 4. The conversion LED as claimed in claim 1 , wherein the second luminescent substance is CaAlSiN 3 :Eu with 0.3 to 0.8% Eu fraction of M. 5. The conversion LED as claimed in claim 1 , wherein the first luminescent substance is A 3 B 5 O 12 , where A=80 to 100% Lu, remainder Y and a Ce content of 1.5 to 2.5%, where B=15 to 25% Ga, remainder Al. 6. The conversion LED as claimed in claim 1 , wherein said M contains is at least 95% Ca, and wherein at most 5% of the Al can be replaced by B. 7. The conversion LED as claimed in claim 1 , wherein in the case of the component B the first luminescent substance contains 20 to 30 mol.-% Ga, the remainder being Al. 8. The conversion-LED of claim 1 , wherein the first luminescent substance has a full width at half maximum between 104.3 nm and 113 nm and the second luminescent substance has a full width at half maximum between 86.7 nm and 104.4 nm. 9. A conversion LED comprising: a chip which emits primary radiation; and a luminescent substance-containing layer which is on the chip or positioned so that it intercepts the primary radiation emitted from the chip and which converts at least some of the primary radiation of the chip into secondary radiation, wherein the luminescent substance-containing layer comprises a first luminescent substance of the A 3 B 5 O 12 :Ce garnet type which emits yellow green and a second luminescent substance of the MAlSiN 3 :Eu calsine type which emits orange red, wherein the peak wavelength of the primary radiation lies in the 435 nm to 455 nm range, the first luminescent substance being a garnet having essentially the cation A=75 to 100 mol. % Lu, remainder Y and a Ce content of 1.5 to 2.9 mol. %, where B=10 to 40 mol. % Ga, remainder Al, the second luminescent substance is of the basic MAlSiN 3 :Eu type, where M is Ca alone or at least 80% Ca and the remainder of M is Sr, Ba, Mg, Li or Cu, in each case alone or in combination, wherein some of the Al up to 20%, can be replaced by B, and wherein N is optionally partially replaced by O, F, Cl, alone or in combination, and, wherein the conversion LED emits warm-white light with a color temperature between 2900 K to 3150 K. 10. The conversion LED of claim 9 , wherein the color temperature of the emitted light lies between 2900 K and 3100 K. 11. The conversion LED as claimed in claim 9 , wherein the first luminescent substance contains 1.8% to 2.6 mol.-% Ce as doping which is attributed to the component A, the remainder being A. 12. The conversion LED as claimed in claim 9 , wherein the second luminescent substance contains 0.3 to 0.9 mol.-% Eu as doping which is attributed to the component M. 13. A conversion LED comprising: a chip which emits primary radiation; and a luminescent substance-containing layer which is on the chip or positioned so that it intercepts the primary radiation emitted from the chip and which converts at least some of the primary radiation of the chip into secondary radiation, wherein the luminescent substance-containing layer comprises a first luminescent substance of the A 3 B 5 O 12 :Ce garnet type which emits yellow green and a second luminescent substance of the MAlSiN 3 :Eu calsine type which emits orange red, wherein the peak wavelength of the primary radiation lies in the 435 nm to 455 nm range, wherein the luminescent substance is a garnet having essentially the cation A=75 to 100 mol. % Lu, remainder Y and a Ce content of 1.5 to 2.9 mol. %, where B=10 to 40 mol. % Ga, remainder Al, wherein the second luminescent substance is of the basic MAlSiN 3 :Eu type, where M is Ca alone or at least 80% Ca and the remainder of M is Sr, Ba, Mg, Li or Cu, in each case alone or in combination, wherein some of the Al up to 20%, can be replaced by B, and wherein N is optionally partially replaced by O, F, Cl, alone or in combination, and wherein the conversion LED emits warm-white light with a color temperature between 3000 K to 3050 K.