Electrical connector having resonance control

What is claimed is: 1. An electrical connector comprising: a housing having a first end and a second end, the housing having a mating slot formed between the first and second ends, the mating slot being configured to receive a mating connector having contact pads; and a leadframe assembly disposed in the housing, the leadframe assembly having a contact array including ground contacts and signal contacts interspersed between corresponding ground contacts, and an overmold body supporting the ground and signal contacts, the overmold body having lossy ground absorbers engaging and being electrically coupled to corresponding ground contacts, the lossy ground absorbers manufactured from lossy material absorbing electrical resonance propagating through the leadframe assembly, wherein the lossy ground absorbers each include a ground contact interface engaging the corresponding ground contact to connect the lossy ground absorbers to the ground contacts. 2. The electrical connector of claim 1 , wherein the signal contacts and the ground contacts are held together by the overmold body. 3. The electrical connector of claim 1 , wherein the overmold body includes a main body having pockets receiving the lossy ground absorbers, the main body being manufactured from low loss material. 4. The electrical connector of claim 3 , wherein the main body includes side walls defining the pockets, the lossy ground absorbers including sides against the side walls. 5. The electrical connector of claim 3 , wherein the main body includes blocks of the low loss material between the pockets and the lossy ground absorbers, the blocks being tied together. 6. The electrical connector of claim 1 , wherein the overmold body includes a main body being manufactured from low loss material and molded around the signal contacts, the lossy ground absorbers being co-molded with the main body and molded around the ground contacts. 7. The electrical connector of claim 1 , wherein each lossy ground absorber is coupled to at least two ground contacts. 8. The electrical connector of claim 1 , wherein the ground contacts are arranged in a row with a pair of signal contacts between each of the ground contacts, the overmold body including a lossy tie bar spanning between the lossy ground absorbers across the pair of signal contacts. 9. The electrical connector of claim 1 , wherein the leadframe assembly defines a first leadframe assembly, the electrical connector further comprising a second leadframe assembly disposed in the housing below the first leadframe assembly, the second leadframe assembly having a contact array including ground contacts and signal contacts interspersed between corresponding ground contacts, and an overmold body supporting the ground and signal contacts, the overmold body of the second leadframe assembly having lossy ground absorbers coupled to corresponding ground contacts, wherein the lossy ground absorbers of the first leadframe assembly are coupled to corresponding lossy ground absorbers of the second leadframe assembly to interconnect ground contacts of the first and second leadframe assemblies. 10. The electrical connector of claim 1 , wherein the housing includes a front housing and a rear housing, the leadframe assembly being disposed in and supported by at least one of the front housing and the rear housing. 11. The electrical connector of claim 1 , wherein the lossy ground absorbers each include an edge defining an absorber interface engaging another lossy ground absorber. 12. An electrical connector comprising: a housing having a first end and a second end, the housing having a mating slot formed between the first and second ends, the mating slot being configured to receive a mating connector having contact pads; a first leadframe assembly disposed in the housing, the first leadframe assembly having a first contact array including ground contacts and signal contacts interspersed between corresponding ground contacts and a first overmold body supporting the ground and signal contacts, the first overmold body having upper lossy ground absorbers coupled to corresponding ground contacts, the upper lossy ground absorbers manufactured from lossy material absorbing electrical resonance propagating through the first leadframe assembly, and a second leadframe assembly disposed in the housing, the second leadframe assembly having a second contact array including ground contacts and signal contacts interspersed between corresponding ground contacts and a second overmold body supporting the ground and signal contacts, the second overmold body having lower lossy ground absorbers coupled to corresponding ground contacts, the lower lossy ground absorbers manufactured from lossy material absorbing electrical resonance propagating through the second leadframe assembly, wherein the upper lossy ground absorbers are coupled to corresponding lower lossy ground absorbers to interconnect ground contacts of the first and second leadframe assemblies. 13. The electrical connector of claim 12 , wherein the upper lossy ground absorbers include edges defining absorber interfaces and wherein the lower lossy ground absorbers include edges defining absorber interfaces abutting against the absorber interfaces of corresponding upper lossy ground absorbers. 14. The electrical connector of claim 12 , wherein the first overmold body includes a main body being manufactured from low loss material and molded around the signal contacts of the first contact array, the upper lossy ground absorbers being co-molded with the main body of the first overmold body and being molded around the ground contacts of the first contact array, and wherein the second overmold body includes a main body being manufactured from low loss material and molded around the signal contacts of the second contact array, the lower lossy ground absorbers being co-molded with the main body of the second overmold body and being molded around the ground contacts of the second contact array. 15. The electrical connector of claim 12 , wherein the ground contacts of the first contact array are arranged in a row with a pair of signal contacts of the first contact array between the ground contacts, the first overmold body including an upper lossy tie bar spanning between and connecting the upper lossy ground absorbers across the pair of signal contacts, the upper lossy tie bar being manufactured from a same lossy material as the upper lossy ground absorbers, and wherein the ground contacts of the second contact array are arranged in a row with a pair of signal contacts of the second contact array between the ground contacts, the second overmold body including a lower lossy tie bar spanning between and connecting the lower lossy ground absorbers across the pair of signal contacts, the lower lossy tie bar being manufactured from a same lossy material as the lower lossy ground absorbers, the lower lossy tie bar abutting against and being connected to the upper lossy tie bar. 16. An electrical connector comprising: a housing having a first end and a second end, the housing having a mating slot formed between the first and second ends, the mating slot being configured to receive a mating connector having contact pads; and a leadframe assembly disposed in the housing, the leadframe assembly having a contact array including ground contacts and signal contacts interspersed between corresponding ground contacts, the leadframe assembly having an overmold body supporting the ground and signal contacts, the overmold body having a low loss section manufactured from low loss dielectric material and a lossy section manuf