Compute Securely Bus Header KeyImportant Notes:

1. This product is only compatible with older motherboards such as Intel and AMD. It is not compatible with newer motherboard models featuring firmware TPM, all-in-one PCs, or laptops.

2. The minimum hardware requirements for upgrading to Windows 11 via TPM 2.0 are as follows: a 1 GHz or faster 64-bit processor (dual-core/multi-core), 4 GB of memory, 64 GB of storage space, firmware supporting UEFI Secure Boot and TPM 2.0, a DirectX 12-compatible graphics card, and a display with a resolution of 720p or higher.

3. This product has a 18pin-1 connector. Please carefully check the pin positions in the image to ensure compatibility with your motherboard before purchasing.

Compatible models:
for ASRock Motherboard

H370 Pro4

H370M Pro4

X370 Pro4

X370 Pro BTC+

X370 Killer SLI

X370M Pro4

X370M Pro4 R2.0

Z370 Pro4

Z370 Taichi

Z370 Extreme4

Z370 Killer SLI

Z370 Killer SLIac

Z370M-ITXac

Fatal1ty X370 Gaming X

Fatal1ty Z370 Gaming K6

Fatal1ty Z370 Professional Gaming i7

How to select and install a security module:

1. Confirm whether the host has TPM 2.0 or if TPM 2.0 is enabled.

2. Click “Run,” enter: tpm.msc (Win+R keys), and check if the TPM version is ready.

3. If version 2.0 is displayed but not ready, you need to configure settings in the BIOS; consult the motherboard manufacturer's customer service.

4. Open the host and inspect the TPM pins on the motherboard.

5. When installing the module, ensure the chip-side faces inward, align with the pins, and insert fully to prevent loosening. (See image for direction)

Product Performance

Compatible with: TPM2.0 LPC 2.0

Chipset: SLB9665

Interface: LPC

PIN DEFINE: 18-pin

Core Applications:

1: Seamless upgrade to Windows 11: Resolve TPM 2.0 verification issues and easily upgrade to the latest operating system.

2: Enhanced hardware-level security: Provides an independent secure encryption chip specifically designed for securely storing sensitive data (such as encryption keys, digital certificates, and login credentials), thereby enhancing overall system security.

3: Hardware encryption acceleration: Reduces CPU load by accelerating encryption operations via dedicated hardware, indirectly improving system response speed and enhancing the smooth operation of certain encryption-dependent applications (such as games and security software).