S912XHY128F0CLL Product Information|NXP

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Operating Features

ParameterValue
Flash (kB)
128
RAM (kB)
8
Operating Frequency [Max] (MHz)
40
CAN
2
ParameterValue
SPI
1
Supply Voltage [max] (V)
5.5
Supply Voltage [min] (V)
4.5
Ambient Operating Temperature (Min to Max) (℃)
-40 to 85

Environmental

Part/12NCPbFreeEU RoHSHalogen FreeRHF Indicator2nd Level InterconnectREACH SVHCWeight (mg)
S912XHY128F0CLL(935314931557)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
D
e3
REACH SVHC
685.2
S912XHY128F0CLLR(935314931528)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
D
e3
REACH SVHC
685.2

Quality

Part/12NCSafe Assure Functional SafetyMoisture Sensitivity Level (MSL)Peak Package Body Temperature (PPT) (C°)Maximum Time at Peak Temperatures (s)
Lead Free SolderingLead Free SolderingLead Free Soldering
S912XHY128F0CLL
(935314931557)
No
3
260
40
S912XHY128F0CLLR
(935314931528)
No
3
260
40

Shipping

Part/12NCHarmonized Tariff (US)DisclaimerExport Control Classification Number (US)
S912XHY128F0CLL
(935314931557)
854231
3A991A2
S912XHY128F0CLLR
(935314931528)
854231
3A991A2

Product Change Notice

Part/12NCIssue DateEffective DatePCNTitle
S912XHY128F0CLL
(935314931557)
2025-04-162025-05-26202504008IFreescale Logo to NXP Logo Product Marking Conversion for All Remaining Former Freescale Products
S912XHY128F0CLLR
(935314931528)
S912XHY128F0CLL
(935314931557)
2020-12-152020-12-16202011011INXP Will Add a Sealed Date to the Product Label
S912XHY128F0CLLR
(935314931528)
S912XHY128F0CLL
(935314931557)
2020-10-302020-11-30202007015INXP Standardized Tray Attributes for LQFP 14x14 Bulk Shipments

More about S12XHY

The MC9S12XHY family is an optimized, automotive 16-bit MCU product line focused on low cost and high performance.

Targeted for the lower end of automotive instrument cluster applications, the MC9S12XHY family includes support for CAN and LIN/J2602 communication and delivers typical cluster requirements such as stepper motor control with stepper stall detection (SSD) and LCD driver.

Get all the advantages and efficiencies of a 16-bit MCU while retaining the cost-effective, power consumption, electromagnetic compatibility and code-size efficiency advantages currently enjoyed by users of Our 8-bit and 16-bit MCU families.