JC10M128C
Posted: Thu Mar 16, 2017 6:26 am
@JavaCardOS, Please give more information on the JC10M128C:
1.) Chip of card (Infineon, NXP, STM ...)
2.) Chip model (SLE77, NXP J2A080 ...)
3.) Key sizes available and algorithms
4.) APDU buffer max size
5.) JCSystem transaction buffer max size
6.) Signature algorithm availability for ALG_RSA_SHA_256_PKCS1, ALG_RSA_SHA_PKCS1, ALG_RSA_SHA_384_PKCS1, ALG_RSA_SHA_512_PKCS1
7.) ECC algorithm for ECDH and ECDSA availability at 256, 384 and 521 bit key sizes
This card seems to be capable of matching A22CR in terms of having the upper hand in RAM size availability with lesser Flash space and no ISO14443. The outright availability of 3.75 KB RAM is simply very tempting for those people who utilizes a lot of RAM for complex computations. Maybe a variant with 4 KB to 4.3 KB RAM would make it even more tempting in the future if you guys have the opportunity to do something with lots of RAM and have at least 128 KB Flash. One suggestion is to look into STM's ST33 ARM SecurCore 300 chips.
1.) Chip of card (Infineon, NXP, STM ...)
2.) Chip model (SLE77, NXP J2A080 ...)
3.) Key sizes available and algorithms
4.) APDU buffer max size
5.) JCSystem transaction buffer max size
6.) Signature algorithm availability for ALG_RSA_SHA_256_PKCS1, ALG_RSA_SHA_PKCS1, ALG_RSA_SHA_384_PKCS1, ALG_RSA_SHA_512_PKCS1
7.) ECC algorithm for ECDH and ECDSA availability at 256, 384 and 521 bit key sizes
This card seems to be capable of matching A22CR in terms of having the upper hand in RAM size availability with lesser Flash space and no ISO14443. The outright availability of 3.75 KB RAM is simply very tempting for those people who utilizes a lot of RAM for complex computations. Maybe a variant with 4 KB to 4.3 KB RAM would make it even more tempting in the future if you guys have the opportunity to do something with lots of RAM and have at least 128 KB Flash. One suggestion is to look into STM's ST33 ARM SecurCore 300 chips.